DE8136124U1 - STABILIZER - Google Patents

Description

R. 17 5 2.7

1.12.1981 Wd / Kc

ROBERT BOSCH GMBH ₅ 7OOO Stuttgart 1

stabilizer
State of the art

The invention is based on a stabilizer according to the preamble of the main claim. One such known stabilizer has a piston which is slidably arranged in a housing and which is loaded on both sides by compression springs and to which on the one hand the control rod and on the other hand the linkage of the controller is connected. One of those However, the stabilizer has the disadvantage that the settling times for load jumps are too long.

Advantages of the invention

The stabilizer according to the invention with the characteristic In contrast, the feature of the main claim has the advantage that the response sensitivity is high, whereas the settling time is high is small.

drawing

An embodiment of the invention is shown in the drawing shown and explained in more detail in the following description. This shows in Figure 1 a longitudinal section through a stabilizer, in Figure 2 a longitudinal section through the Stabilizer piston.

Description of the example of the invention

The stabilizer has a housing 10 in which a bore 11 closed by a cover 12 is formed. In the bore 11, a piston 13 is arranged in a tightly sliding manner, on which a compression / tension spring lh acts from one side and is supported on a lever 15. The lever 15 is mounted on a shaft 16 rotatably arranged in the housing and is actuated by a control lever 17 of the injection pump.

The bore 11 receiving the piston 13 opens into a housing recess 18, in which the lever 15 is arranged. Both the housing recess 18 and the bore 11 are filled with oil. The two pressure chambers in the bore, which are separated by the piston 13 and denoted by 20, 21 11 are connected via a schematically illustrated channel 22 in which a throttle 23 is arranged.

The piston 13 shown in Figure 2 in longitudinal section has two parallel bores 2b, 27, which through a cover 2Ö are partially closed. In this there are two bores 29, 30 which are aligned with the bores 26, 27 educated. At the bore 30 is a surrounding ring

groove 31 is formed, resulting in an annular valve seat 32 for a plate-shaped closing member 33 which is loaded by a compression spring 3 ^. On the end face of the piston opposite the cover 28, a cylindrical extension 35 is formed which has a helical groove 36 on its end face. A channel 38 extends from this end face and opens into the bore 27. A similar channel - also starting from the end face of the extension - opens into the bore 26. On its side facing the extension, an annular groove Uu is formed, which results in a valve seat U1 for a plate-shaped closing element k2 , which is pushed onto the valve seat by a compression spring k3 is pressed. It can be seen from this that the closing elements 33j h "\" acting as pressure relief valves open or close in the opposite direction. The spring 1 k is rotated into the groove 36 on the extension. Its other end is fastened to the lever 15 in the same way.

If load jumps occur during a control process, e.g. B. in the direction of arrow P, then the closing member 33 lifts from the valve seat 32, so that an almost instantaneous subsequent movement of the piston 13 takes place. In the opposite direction, the closing element \ 2 opens in the event of a pressure surge. If the load jumps are small, the volume compensation takes place via the channel 22, specifically attenuated by the throttle 23. This ensures good stability behavior of the control device.

1.12.1981 ¥ d / Kc

ROBERT BOSCH GMBH, TOOO Stuttgart 1

stabilizer
summary

The stabilizer has a housing bore (11) tightly sliding piston (13) which delimits two pressure chambers (20, 21) located on its end faces, which through a duct (22) containing a throttle (23) are connected to one another. The piston is resilient with

a linkage (15, 17) of the controller, for example one Injection pump, connected. In the piston there are two through - * - de, parallel bores (26, 27), in which in the opposite direction opening or closing pressure relief valves (33-1 * 2) are arranged

are. In this way a stabilizer is obtained which p
g has a short settling time in the case of large load jumps.

Claims (2)

1.12.1981 Wd / Ke ROBERT BOSCH GMBH, 7OOO Stuttgart 1 Expectations 1. Stabilizer for mechanical regulators, especially for injection pumps, Consists of a piston guided in a housing, which is in operative connection with the control linkage of the regulator stands, characterized in that the housing bore (11) receiving the piston (13) is filled with liquid, that the piston spring resiliently connected to the linkage (15 j 17) is that the two pressure chambers (20, 21) located on the end faces of the piston have a parallel to the housing bore extending and a throttle (23) having channel (22) are connected to each other and that in the piston two in V 'opposite direction and in separate passages f (26, 29, 39; 27, 30, 38) located pressure relief valves (33, ^ 2) are arranged. 2. Stabilizer according to claim 1, characterized in that the pressure relief valves as spring-loaded plate valves are trained.