DE3338416A1 - Device for damping oscillations in fluids - Google Patents

Abstract

A device for damping oscillations in fluids has a housing which is provided with a pressure medium supply opening and pressure medium outlet openings, in which housing a guided piston separates a pressure medium supply space from a pressure medium space. The pressure medium supply space corresponds to the pressure medium space through restrictor holes which are arranged in the piston base. A piston rod which is arranged on the piston on the pressure medium space side guides a spring which influences the movement of the piston. In order to achieve a device which is optimised in terms of material and structural volume and comprises a small number of components which can be produced at a low cost in terms of production engineering, the pressure medium space is partially formed by an annular space which is located between the piston rod and the piston shaft of the piston which is constructed as a hollow piston.

Description

Device for damping vibrations in

Liquids The invention relates to a device for Damping vibrations in liquids according to the preamble of the claim 1.

DE-OS 14 50 547 is a shut-off device, in particular a switching valve with magnetic release known, in which the movement of a drive element is to be dampened in relation to the shut-off device to be driven. Between the drive member and the shut-off element is interposed with a piston and the closing piece of the The shut-off element is designed to be displaceable in the axial direction on the valve linkage. For a self-damped locking piece movement, the locking piece is by means of the Linkage is also assigned to axially guided pistons in the valve housing. Between the working space enclosed by the piston is more or less delayed by Throttle bores an inflow or outflow of the medium from the work area as a function of the movements of the locking pieces' # itself prevented. However, there is a disadvantage doing that to accommodate the spring and the oscillating piston a large-volume work area is required. It must be ensured that in the event of a deflection of the piston in which the spring is largely compressed, there is still a sufficient remaining volume in the working area to accommodate the medium stands.

The object of the invention is to provide a device for damping vibrations to be designed in liquids that are optimized in terms of material and construction volume and can be created from a few components that are not complex in terms of production technology.

According to the invention, this object is achieved by the features identified of claim 1 solved.

Further features of the invention are contained in the subclaims.

The device according to the invention for damping vibrations in liquids has the advantage that a through between the piston skirt of the hollow piston and the annular space formed by the piston rod for pilot control of the overpressure behavior the device using the cylinder spring accommodates. This cylinder spring has only a low spring force, since the circular ring surface formed by the hollow piston acts as a pressure-relieving circular ring surface, which is with the piston-side pressure is applied.

Through this link a device was created, the volume of which compared to the known devices of this type is very low. Because of the use of rotationally symmetrical components and the small number of components used in the The device according to the invention are used, is the production engineering Very little effort compared to the known devices.

In the drawing the invention is in an exemplary embodiment shown. It shows: Figure 1 shows a device shown in longitudinal section for Damping vibrations in liquids, in which the piston is arranged in the rest position and Figure 2 shows a device for damping vibrations in liquids, in which the piston releases the pressure medium discharge opening, shown in longitudinal section.

A device, denoted by 1 in FIG. 1, for damping vibrations in liquids comprises a housing 2, a hollow piston 5, a cylinder spring 6 and an elastic retaining ring 8 fixing a piston rod 7 in one area 9 of the housing 2 has a mounting flange holes 10 for mounting the Housing 2 to a receiving device not shown in detail. In the rich One end face of the fastening flange is a pressure medium supply opening 11 arranged. Below the fastening flange are transverse to the pressure medium supply opening 11 helically arranged pressure medium discharge openings 12, which at a according to the hollow piston position shown in Figure 1 of the piston skirt 13 of the hollow piston 5 are locked. One of the hollow piston 5 in a pressure medium supply space 14 and a pressurized medium chamber 15 has a receiving space in an area 16 of the pressure medium space 15 a reducing the cross section of the pressure medium space Paragraph which forms a deflection stop for the hollow piston 5. On the opposite On the side of the pressure medium supply opening 11, the housing 2 has an opening 17 through which the piston rod protrudes from the housing 2.

The cylinder spring 6 surrounding the piston rod 7 is supported on the one hand on the housing 2 in the region of the opening 17 and on the other hand on the hollow piston 5. The The piston head of the hollow piston 5 has throttle bores 18 through which the pressure medium supply space 14 corresponds to the pressure medium space 15. A between the piston chamber 13 of the Hollow piston 5 and the piston rod 7 formed annular space 19 increases the volume of the pressure medium space 15.

In FIG. 2, the hollow piston 5 is against the stop in the area 16 of the housing 2 so that the piston shaft 13 is the pressure medium discharge opening 12 releases.

The elastic retaining ring 8 is form-fitting in the Ring groove 4 fixed. The elastic retaining ring 8 prevents the by the Cylinder spring 6 preloaded hollow piston 5 inadvertently out of the receiving space escapes.

In the event of a pressure increase in the pressure medium supply chamber 14, a slower one occurs Pressure equalization between the pressure medium supply space 15 and the pressure medium space 14 through the throttle bores 18, so that the actuating force to be applied by the spring only needs to be low for precontrol.

When the set by the cylinder spring 6 is exceeded Pressure of the hollow piston 5 is shifted against the cylinder spring until the Pressure medium discharge openings 12 are released from the piston and the pressure medium is discharged through the pressure fluid discharge openings 12 until it is again adjusts a pressure equilibrium.

In a further embodiment according to the invention, the pressure medium discharge openings 12 can also be arranged in any graded form.

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Claims (6)

Claims device for damping vibrations in liquids, with one having a pressure medium supply opening and pressure medium discharge openings Housing in which a guided piston has a pressure medium supply space from a pressure medium space separates the pressure medium supply chamber through throttle bores arranged in the piston head corresponds, and a piston rod arranged on the piston on the pressure medium chamber side, which guides a spring influencing the movement of the piston, characterized in that that the pressure medium space (15) between the piston shaft (13) as a hollow piston (5) formed piston and the piston rod (7) located annular space (19) comprises. 2. Apparatus according to claim 1, characterized in that the hollow piston (5) is designed as a one-piece component together with the piston rod (7). 3. Apparatus according to claim 1, characterized in that the piston rod (7) on the opposite side of the piston surface on the pressure medium chamber side the housing (2) protrudes 4. Device according to claims 1 to 3, characterized in that that transversely to the pressure medium supply opening (11) in the housing 2 arranged pressure medium discharge openings (12) can be covered by the piston skirt (13) of the hollow piston (5). 5. Apparatus according to claim 4, characterized in that the pressure medium discharge openings (12) in the housing 2 in the area of the pressure medium supply space 14 in a helical shape are arranged. 6. Device according to claims 1 to 5, characterized in that that an elastic retaining ring (8) arranged in a form-fitting manner in an annular groove (4) the hollow piston (5) in its through the pressure medium supply space (14) and the pressure medium space (15) formed receiving space fixed.