DE2736080A1 - CUSHIONING DEVICE FOR REFLECTIVE VALVES - Google Patents

Description

KRAPTWEHK UNIOi: AKTIENGESELLSCHAFT Our mark

77P 9 35 9 FRG

Damping device for check valves

The invention relates to a damping device for non-return fittings in liquid lines with a closure piece which can be moved by the liquid flow and which is closed when the Check valve rests against a valve seat, with a Damping piston, which only shortly before reaching the closed position the VersChIuSstückes is positively connected to this and whose hollow cylindrical spaces adjoining the end faces of the hollow damping piston change over their effective cross-section Throttle openings are interconnected.

Such a damping device is in the German Auslegeschrift 2 124 315. A lever is attached to the shaft of a non-return valve outside the pipeline, which hits the plunger of a damping cylinder shortly before reaching the closed position of the non-return flap. Of the The damping cylinder contains a hollow piston, the interior of which Via a valve arrangement with several valve bodies initially large and with increasing path smaller passage openings for releases the liquid present in the damping cylinder.

This results in a progressive damping of the non-return valve movement achieved shortly before reaching the end position.

In particular for the use of such check valves in pipelines of nuclear power plants, extremely short 25th

C 2 Tue / July 28, 1977

909807/0558

"V 77P 9 359 FRG

Closing times required. However, there are very short closing times high pressure surges in the lines, which are reduced to a permissible level by an effective damping device have to.

The object of the present invention is to provide a damping device for a non-return valve that has both is suitable for non-return flaps as well as for non-return valves and which is extremely effective while maintaining effective damping enables short switching times.

According to the invention, this object is achieved in that the end faces of the hollow damping piston adhere to hollow cylinders Adjacent spaces that are axially supported by the interior through which the liquid flows through a damping piston movably mounted hollow cylindrical guide piece are separated and that the throttle openings in the hollow cylindrical Guide piece.

Such a design of the damping hollow piston does not require any power transmission linkage on the closure piece or the non-return valve and is also more simply constructed and less space-consuming than, for example, the known solution according to DT-AS 2 124 315

From the German Auslegeschrift 1 806 748 it is known to connect the closing piece of a check valve to a piston, whose associated cylinder spaces are in communication with the liquid line via through openings, however in this known arrangement a damping over the entire Effective way of the locking piece, which inevitably leads to longer switching times. Very short switching times with limited Pressure surges are also difficult to achieve with this arrangement, because for the one impinging on the valve seat Ring piston no additional damping is provided before reaching its closed position.

909807/0558

Embodiments of the invention are shown in the drawings.

Figure 1 shows the embodiment of the invention using the example of a non-return valve 1, which is inside a housing 2 on a Shaft 3 is rotatably mounted and rests against a valve seat 4 in the closed position. You fluid line is connected to the open ends 5 and 6 of the housing 2. The normal direction of flow of the liquid is through a Marked arrow 7.

In the position of the swing flap valve 1 shown in FIG. 1, it rests on a plunger 8, which is connected via connecting pieces 9 is connected to a hollow cylindrical guide piece 10 which carries the hollow piston 11. You both end faces 12 and 13 of the damping hollow piston border on hollow cylindrical spaces and 15, which surround the interior of the hollow cylindrical guide piece 10 concentrically. The hollow cylindrical spaces and 15 are above throttle openings 16 and 17 in the hollow cylinder Guide piece 10 with its interior in connection.

Figure 1 shows that the throttle openings are arranged so that depending on the position of the leadership tuekee one more or less large part of the cross section · «of the throttle openings for the passage of the liquid between the interior and the hollow cylindrical seams 14 and 15 is effective. The hollow cylindrical guide piece 10 advantageously has the same inside diameter as provided for the liquid line.

The mode of operation of the device described is as follows:

When the liquid flows in the direction of arrow 7, at open check valve 1 of the damping piston 11 with the Guide piece 10 and the plunger 8 pressed into the left end position. If the direction of flow is reversed, it closes

909807/0558

Check valve and hits shortly before reaching the closed position on the plunger 8. The damping piston 11 is pressed to the right with the hollow cylindrical guide piece 10, so that through the throttle openings 17 liquid from the hollow cylindrical Space 15 into the interior of the guide piece 10 flows. On the other hand, liquid flows from the inside of the guide piece 10 through the throttle openings 16 in the hollow cylindrical Space 14 · As the damping piston is shifted to the right, the effective cross-section for this flow becomes the throttle openings 17 less, so that there is a progressive damping effect. By the number, shape and position of the passage openings 17 and 16 allows this damping effect to be adapted to the respective required conditions.

In order to achieve the damping effect, it is with this arrangement So it is unnecessary to equip the non-return valve with levers, rods, etc. You can therefore achieve this even with large pipelines a very fast closing and opening process.

FIG. 2 shows an exemplary embodiment of the invention in which, instead of a non-return valve, an axially displaceable one is mounted Closure piece 18 is provided. The plunger 8 protrudes into this locking piece 18 and is there with play in a cylindrical opening 19 mounted. In this arrangement, which otherwise has the same mode of operation as the embodiment of Figure 1, the guide piece 10 and the The damping piston 11 is not only pushed to the left by the flow of liquid, but is also taken along by the closure piece 18. This also occurs when the closure piece is opened 18 has a damping effect.

3 claims
2 figures

909807/0558

Claims (2)

Claims 1. Damping device for non-return valves in liquid lines with a closure piece which can be moved by the liquid flow and which, when the non-return valve is closed, is attached to a Valve seat rests, with a damping piston, which only briefly before reaching the closed position of the closure piece is positively connected to this and its to the end faces of the damping hollow piston adjoining hollow cylindrical spaces via throttle openings which change in the effective cross section are connected to one another, characterized in that the end faces (12, 13) of the damping hollow piston (11) adjoin hollow cylindrical spaces, which are from the interior through which the liquid flows The damping piston (11) carrying and axially movably mounted hollow cylindrical guide piece (10) are separated and that the throttle openings (16, 17) are located in the hollow cylindrical guide piece (10). 2. damping device according to claim 1, characterized in that that the axial position of the throttle openings (16, 17) is chosen is that at least in the end position of the damping hollow piston (11) with the non-return valve closed, only part of the cross section the Droeeelöffnungen (17) in the area of the associated hollow cylindrical space (15) is located. 3 · Damping device according to claim 1, characterized in that that for a positive connection between one axially movable bearing closure piece (18) and the damping piston (11) a plunger (8) connected to the damping piston (11) protrudes into the interior of the closure piece (18) and there with it Game is mounted longitudinally movable. 909807/0558 ORIGINAL INSPECTED