DE19961852A1 - Pump has valve(s), preferably inlet valve(s), that determines parameter(s) dependent on pressure in pump cylinder and switching time of valve depending on the measured parameter - Google Patents

Abstract

The pump has at least one valve, preferably an inlet valve (8) with a sensor (10), that determines the parameter(s) dependent on the pressure in the pump cylinder (3), especially the pressure change per unit time and the switching time of the valve depending on the measured parameter. The valve is actuated electromagnetically and the opening or closing times are determined using stored tables or characteristic fields.

Description

The invention relates to a pump for delivery or pressure build-up of fluids, especially hydraulic fluid for controlled braking systems in vehicles.

Here is the available energy for maintenance the pump is severely limited. The pump should continue dimensions as small as possible and a small weight ha ben. It is therefore endeavored to design the pump in such a way that they are very effective under normal operating conditions tiv works and the smallest possible dimensions at ge low weight. With the usual pumps is a Inlet valve and an outlet valve provided in the Are usually designed as check valves. This means, that the valves depending on the on the valve body opened or closed depending on the pressure conditions are. There is a transition area in which the Pressure difference on the valve body is so large that that The valve begins to open or the valve body moves in Closing direction moves. Especially at low temperatures are the necessary pressure differences to move the Valve body considerably, so that the pump is already larger Must have applied suction or pressure forces before the Open or close the valve body. If you look at an egg ne radial piston pump with reciprocating piston the piston must have been dead center of the Have passed the piston travel before the pressure conditions reverse in the pump chamber and a corresponding one the valve opening or closing pressure rebuilt is. As a result, the pump is at low Temperatures may initially be very low  Has delivery capacity, which a quick control behavior in particular especially with ASR or ESP, because in these cases the Pump must start automatically and brake actuation not by operating the brakes on the brake pedal is supported by the driver.

The object of the invention is therefore to propose a pump conditions regardless of the state of the rivers to be extracted liquid or the ambient temperature very quickly Tile actuated and thus the efficiency of the pump, esp Especially significantly improved at low temperatures.

The present invention is therefore based on a pump deriving from the preamble of claim 1 Genus. The task is identified by the in the Part of the main claim listed combination of features ge solves. In principle, the invention consists in the Ven Tile the pump is not passive due to the on the valve body pressure differences occurring, but active to control with the help of electrical forces. With that the Actuation of the valves by the pressure applied to them distinguished largely independently. Rather, the Position of the valves depending on the definable para meters can be set.

With such a setting you use in front partial development of the invention of the combination of features tion according to claim 2. The preferred parameter is the pressure change per time used in the pump cylinder. However, other parameters can also be inside or outside measured half of the pump cylinder and the valve control be made dependent on the measurement result. Is conceivable for example the pressure in the pump chamber, the turn  point of pressure change seen over time or the like Sizes. A trigger criterion for opening the intake valve can, for example, the pressure collapse within the pump chamber of a radial piston pump. The previous one Combined features are also in particular especially for pumps with large pressure fluctuations within the pump chamber such as radial piston pumps particularly suitable.

As valves for the outlet and in particular also for the on let the pump be particularly electromagnetic valves due to their fast response time the combination of features according to claim 2 proven. The An control can also be done by a suitable other force, for example hydraulically or mechanically. With The combination of features according to the invention is also according to Claim 3 can be used effectively. Thereby within the Control device anchored a map and it will based on the values measured by the sensor device the corresponding switching time in the table or Characteristic field read off. This characteristic field can both the opening and closing times of the exhaust valves le in particular also determine the inlet valves, so that the valves optimally improve the Effectiveness of the pump can be controlled.

As valves, in particular of the intake valve, ins special valves according to the combination of features according to An Proof 4 proven. One must strive to ensure that the Delay times, especially of the intake valves, are so short as possible.  

The pump according to the invention is also particularly relevant Lich the combination of features according to claim 5 especially before partially applicable. Because the opening of the inlet or off Let valves no longer depend on the pressure conditions at the Valves themselves but from electrical control signals is dependent, the pump can also be easily bleed or drain by using one or both Keeps valves open at the same time.

An embodiment of the invention is described below hand of the drawing explained. It shows

Fig. 1 in a symbolic representation of the radial piston pump provided with the valve according to the invention.

Fig. 2 shows a modified embodiment of the valve in Fig. 1 and

Fig. 3 further details of the embodiment of the impeller pump of FIG. 1.

In Fig. 1, a pump piston 2 of a pump according to the invention is symbolically shown, which is moved back and forth within a cylinder space 3 by a crank drive 4 . The crank drive can also be set by an eccentric, the eccentric shaft or the crank drive rotating at a rotational speed u. The pump piston 2 is provided in the usual way with a piston seal 5 and egg NEM support ring 6 , which seals the piston surface against the outer surface 7 of the pump cylinder 3 . Symbolically, an inlet valve 8 and an outlet valve 9 are provided, which are often referred to below as suction valve 8 and pressure valve 9 . The inlet valve is an SG valve in FIG. 1, which is electrically controlled by a controller (not shown). The outlet valve is a conventional pressure valve, but can also be controlled electromechanically, as already explained above.

As can be seen from FIG. 2, the inlet valve can also be designed as an SO valve. A sensor device 10 , represented symbolically, measures the change in pressure per unit of time, that is, the derivation of the pressure over time, as indicated by an active connection 11 . A characteristic curve field can then be actuated by the sensor device 10 , which determines the opening and closing times of the suction valve as a function of the measured value and entered into the field and accordingly controls it electromechanically. The same can also apply to the outlet valve 9 , which is shown in FIG. 1 as a multiple pressure valve.

FIG. 3 shows a possible embodiment according to FIG. 1 in more detail. The crank drive 4 ( FIG. 1) is replaced by a conventional eccentric drive 12 , with the return of the pump piston 2 taking place by means of a return arm 13 . The pump housing 14 is provided with a connecting piece 15 which has an inlet opening 16 and an outlet opening 30 , the outlet opening 17 leading to the pressure valve (not shown in FIG. 3) ( FIG. 1).

Fig. 3 shows a possible embodiment of the inlet valve which controls the pressure medium flow to the pump chamber 3 . The pump chamber 3 is closed by an annular valve seat 17 , to which the valve seal 18 of a valve body 19 can be applied by means of the pretensioning force of an Fe 20 . The spring 20 is supported on the Ven valve body 19 via a suitable projection 21 , for example, a clamping ring on the valve body 19 and thus pulls the valve body 19 with its valve seal 18 in the currentless state against the valve seat 17th The inlet opening 16 is thus closed off from the pump chamber 3 in the de-energized state. If the inlet valve is now to be opened, a current or a voltage is applied to a magnet coil 22 which, via a magnet 23, shifts the valve body 19 to the right in FIG. 3 and thus opens the inlet valve electromechanically. This creates a connection channel between the inlet opening 16 and the pump chamber 3 in the area of the valve seal 18 , so that this pump chamber 3 is largely connected to the inlet channel without loss without the usual suction pressure. If the valve sealing device 18 is to close again, the voltage or the current at the solenoid coil is ended, so that the inlet valve closes again due to the force of the spring 20 .

Claims (5)

1. With at least one valve, preferably an inlet valve, a pump for conveying liquid, in particular for regulated brake systems in motor vehicles, characterized in that the valve, preferably an inlet valve ( 17 to 20 ), has a sensor device ( 10 ) which has at least one of them Pressure in the pump cylinder ( 3 ) dependent size determines in particular the pressure change per unit time (dp / dt) and determines the switching point of the valve, in particular the intake and / or exhaust valve ( 17 to 20 or 9 ) depending on the measured size. 2. Pump according to one of the preceding claims, characterized in that the valve (17 to 20, Fig. 3) is actuated electromagnetically. 3. Pump according to one of the preceding claims, characterized in that one or more tables or characteristic curve fields are stored in the sensor device ( 10 ), the result values of which depend on the measured values entered in the pump chamber, the opening values being used using the result values. and / or closing times of the inlet and / or outlet valve can be determined. 4. Pump according to one of the preceding claims, characterized in that the valve or the valves response times ( 8 , 9 ) for the signal detection, evaluation and the closing or opening of the valve be sitting, which is less than 2 ms in total. 5. Pump according to one of the preceding claims, there characterized by that for venting the pump and / or a hydraulic system connected to the pump circuit the inlet and, if applicable, the outlet valve elec are kept open.