DE3003832C2 - Pump, especially diaphragm pump - Google Patents

Description

25th

The invention relates to a pump, in particular a diaphragm pump for delivering fuel for Internal combustion engines, with a drive tappet actuated against a return spring and one between the drive tappets and displacement body in a coupling pot arranged compression spring for implementation of the pressure stroke.

Such a pump is from DE-OS 17 28 171 known with this mechanically driven diaphragm fuel pump there is an adjustment of the delivery rate to the respective fuel requirements of the engine in that the membrane system of the Drive elements can be released by a freewheel. If the requirement is less than the displacement volume, then so there is such a high counterpressure that the compression spring cannot overcome it and that Membrane system only moves slowly after part of the pressure stroke and comes to a standstill, while the plunger executes the full stroke movement. The compression spring located in the spring cup forms a Freewheel and takes up the rest of the stroke of the plunger, which is not carried out by the membrane system will.

In this case, at the beginning of the suction stroke, the plunger is practically at rest without contact with the located membrane system back and hits after this idle stroke at full speed below the Force of the return spring on the clutch pot and suddenly tear the membrane system to the suction stroke With this sudden acceleration is a great mechanical stress on the parts of the Membrane system causes this, in particular, has a negative effect on the tissue reinforcement of the membrane the end. Furthermore, the sudden movement of the membrane causes cavitation in the working space of the pump call, combined with briefly high suction pressures. This leads to the lifting of the plunger from the driving role. The vapor bubbles created by cavitation reduce the amount of fuel that can be sucked in and thus the delivery rate of the pump.

Particularly under hot pumping conditions in which considerable vapor bubbles are already formed in front of the pump may exist, the additional reduction in the delivery rate has a negative effect. At a Completely differently constructed diaphragm pump, it is known from US-PS 28 U 929, the change in the direction of movement to dampen by springs. Furthermore, a diaphragm pump is known from US-PS 20 55 154 at the suction stroke of the membrane by means of an acting on it, on the wall of the working space supporting, spring takes place

The invention is based on the object ^ to create a pump in which the start of the suction stroke takes place dampened, so that a sudden, jerky actuation of the displacement body with it associated disadvantages is avoided.

According to the invention, this object is achieved by the features specified in the main claim Design is specified in the further claim.

An embodiment of the invention is shown schematically in the drawing and is in described in more detail below.

The diaphragm fuel pump has a lower part 1 and an upper part 2, in which one with an inlet line 3 is arranged suction chamber 4 which is connected to a working chamber 6 via a check valve 5 is which is connected to a pressure chamber 8 via a check valve 7 from which one Line 9 leads to the carburetor, not shown, of an internal combustion engine closed on the one hand by the valve support 10 and on the other hand by the membrane 11. The pump function such a pump is known so that it is not necessary to describe it in more detail. By doing Housing lower part 1, a plunger 12 is arranged displaceably in a bore Example driven by an eccentric cam, not shown, of the internal combustion engine. One Return spring 13, which is arranged between the lower housing part 1 and one at the free end of the plunger Spring plate 14 is clamped in place and holds the end of the plunger in contact with the cam. At the membrane 11 is a The spring cup 15 is fastened, the other end of which has a drawn-in edge 16, into the spring cup 15 protrudes the plunger 12, which has two spaced apart retaining rings 17,171 on the The plunger is a spring cup on the side of the membrane 11 18 and on the side of the drawn-in edge 16 of the coupling pot 15, a spring plate 19 is displaceable arranged. A compression spring 20 is located between the spring cup 18 and the spring cup 19.

If a high counterpressure builds up during operation of the pump, the tappet 12, Snap ring 17, spring plate 19, tensioned compression spring 20 do not move the membrane 11 any further upwards. then With further compression of the compression spring 20, the tappet 12 pushes further into the coupling pot 15. The spring plate 19 lifts from that indented edge 16. Since the spring cup 18 with its annular spring support 21 on the clamping plate 22 rests against the membrane 11, the securing ring 171 also lifts from the drawn-in edge 23 of the spring cup 18 away. In this way, the plunger 12 can run a freewheel during the pressure stroke without actuating the membrane 11. When reversing the direction of movement after top dead center, the plunger 12 is under the force of Return spring 13 moved downwards It is assumed in the further description that the The ram had to use the freewheel described above. As soon as during this return movement, which also represents the suction stroke, under the force

Each 13 of the spring plate 19 is moved by moving the plunger 12 on the retracted edge 16 of the Plungsstopfes 15 is supported, the pressure spring 20 is lengthened by the snap ring 171 the spring pot 18 sls of the drawn-in edge 23 lifts off the clamping plate 22 Since the spring plate 19 is arranged slidably on the plunger 12, the distance between the spring plate 19 and ingers Spring cup 18 until the compression spring 20 is biased so far that it exerts the counterforce on the membrane system can win over. The membrane 11 is positively actuated by the spring 20 in the suction stroke, so that the The start of the suction stroke is dampened

The arrangement described can also be used with a pump that acts as a displacement body a diaphragm has a piston

1 sheet of drawings

Claims (2)

Patent claims: 1. Pump, in particular diaphragm pump for pumping fuel for internal combustion engines, with a drive plunger actuated against a return spring and one between the drive plunger and displacement body in a clutch pot arranged compression spring for performing the Pressure stroke, characterized in that the return spring (13) by means of a sliding ι ο bar on the plunger (12) arranged spring cup (18) biases the compression spring (20), which at the other end is supported on a spring plate (19) which is displaceably arranged on the plunger (12) and which is supported on the drawn-in edge (16) of the coupling stop (15) 2. Pump according to claim 1, characterized in that the displaceability of the spring cup (18) and Spring plate (19) on the tappet (12) by means of two securing rings arranged at a distance from one another (17,171) is limited.