DE3806464C2 - - Google Patents

Description

The invention relates to a damping device for Damping pressure surges in a liquid flow, which can be fed to the workstation via a pressure line and can be returned via a return line, wherein between the pressure line and the return line a storage element for receiving the medium is inserted.

Damping devices of various designs are known. It had to be determined that very jerky shocks when the valves are actuated for the drive motors and also for the cylinders occur. When using continuously opening Valves can be opened and opened slowly Close that the liquid flow does not abruptly interrupted. This continuously however, opening valves are heavy and costly.

DE-OS 35 10 267 and 34 41 484 are facilities known where the kinetic energy is either by a spring or an expanding one Hose is added, this being kinetic Energy by stretching the spring or contracting the hose is released again. It can't  define which volume is taken up, because this is pressure dependent in any case. The pressure surge, the z. B. occur in the return of an engine depends on which masses are braked have to. To fix a corresponding storage element must be defined exactly for which pressure this storage element is to be designed. The well-known Devices are primarily used to transform high-frequency Impulses for an even pressure.

The invention is based, jerky the task Delays or acceleration when opening or closing a valve occur, dosed and defined braking, so that no jerky interruption of the liquid flow occurs.

According to the invention, this object is achieved by that a ball serving as a movable sealing element, which the connection points of the memory element one-sided alternately seals, is arranged, the Storage element through a damping hose or a damping tube can be formed. Conveniently the sealing element is formed by a ball, which bears on the inner wall of the storage element. There is also the option of the sealing element train in the form of a piston with an O-ring that is close to the inner wall of the storage element. In development the invention is on the end faces of the storage element one nozzle each, the diameter of which is advantageous is adjustable. The nozzle can pass through  a drilled mandrel may be formed which inserted into the storage element at each end is, the connection point of the mandrel to the storage element is sealed by a press sleeve.

In a preferred embodiment, this is Storage element by a damping drum with several parallel damping hoses or Damping tubes formed, the different sizes Can have diameter.

If a liquid flow is supplied to the work place, preferably to the hydraulic motor, arises in a pressure in the pressure line. The liquid flows in the process also in the storage element, being with the liquid flow the sealing element in the storage element is pushed in front of the nozzle opening and seals it. Normally occurs when the valve closes a pressure peak in the return line, which according to the invention caught by the storage element becomes. The volume of liquid in the storage element runs to the job with this Volume of liquid still a corresponding rotation can perform. With the one flowing out of the storage element Liquid also becomes the sealing element to the other side of the storage element in the starting position postponed. Advantageously, the Size of the volume of liquid used for damping exactly by dimensioning the length and the cross section of the memory element are, this serving for damping liquid volume  is independent of the pressure. Through the The size of the liquid volume is the braking distance definable and by the size of the nozzle opening Time to cover this braking distance.

Advantageous embodiments of the invention are in the further subclaims are shown.

With the damping device designed according to the invention is the size of the one used for damping Liquid volume exactly by appropriate dimensioning the length and cross section of the memory element determined, this serving for damping Liquid volume is independent of pressure. By the exact definition of the volume can be Calculate braking distance accurately, which is largely independent from the braked mass.

The formation of the storage element by a damping drum, the several parallel and different diameter damping hoses or has damping tubes is special advantageous, the damping drum being rotatable Nozzle disc with different sized bores can be assigned. Due to the changeable size of the nozzle openings can be the damping characteristic can be changed, whereby the damping volume is absolute stays the same.

An embodiment of the invention is in the drawing shown and is explained in more detail below. It shows

Fig. 1 a longitudinal section through a hose cushion;

FIG. 2 shows a damping block;

Fig. 3 is a view of a cover plate;

Fig. 4 is a section along the line CD of Fig. 3;

Fig. 5 is a section along the line AB of Fig. 2 and

Fig. 6 is a hydraulic circuit diagram.

When the control valve 12 is open, the oil is fed to the hydraulic motor 8 through the Drucklei device 10 , which flows back via the return line 11 . Oil flows from the pressure line 10 into the damping hose 9 , with the oil serving as a sealing element Ku gel 1 is pushed in front of the opening of the nozzle connected to the return line 11 with the oil. As a result, the drilling tion 6 is sealed. If the control valve 12 is now closed, the oil runs from the damping hose 9 to the hydraulic motor 8 , which can still perform a corresponding rotation with this liquid volume.

The damping drum 7 shown in Fig. 2 has two parallel damping hoses 9 , which have different cross sections un different. The cross section of the individual damping hoses 9 and the size of the holes 6 may be coordinated so that the oil is drained away at different times from the individual NEN damping hoses. 9

On each end of the damping drum 7 , a cover plate 5 is arranged, which is seen with an annular channel 4 ver. A rotatable nozzle disk 3 with bores 6 of different sizes is arranged between the damping drum 7 and a cover plate 5 . By rotating the nozzle disk 3 , the holes 6 can be assigned to the different diameters of the damping hose 9 . The two cover plates 5 and the nozzle disk 3 are connected to the damping drum 7 by means of a screw.

According to FIG. 1, the nozzles arranged on the end faces of the damping hose 9 are each formed by a mandrel provided with a bore 2 .

Claims (13)

1. Damping device for damping pressure surges in a liquid flow, which can be supplied to the work station via a pressure line and can be returned via a return line, the pressure line and the return line being inserted into a storage element for receiving the medium, in which a sliding element is stored, characterized that a sealing element serving as a movable ball (1), which seals the connection points of the memory element side alternately, is arranged. 2. Damping device according to claim 1, characterized records that the sealing element with an O-ring ver can be seen that is close to the inner wall of the storage elements. 3. Damping device according to one of claims 1 or 2, characterized in that on the end faces of the Storage element is arranged one nozzle each. 4. Damping device according to claim 3, characterized records that the diameter of the nozzle is adjustable is. 5. Damping device according to claim 3 or 4, characterized in that the nozzle is formed by a bore ( 2 ) provided with a mandrel, which is inserted at each end into the storage element. 6. Damping device according to claim 5, characterized shows that the connection point of the mandrel on the Storage element is sealed by a press sleeve. 7. Damping device according to claim 1, characterized in that the storage element is formed by a damping drum ( 7 ). 8. Damping device according to claim 7, characterized in that the damping drum ( 7 ) has a plurality of parallel damping hoses ( 9 ) or damping tubes. 9. Damping device according to claim 7 or 8, characterized in that the damping hoses ( 9 ) or damping tubes of the damping drum ( 7 ) have differently large cross sections. 10. Damping device according to one of claims 7 to 9, characterized in that the damping drum ( 7 ) has a cover plate ( 5 ) on the end faces. 11. Damping device according to claim 10, characterized in that each cover plate ( 5 ) is provided with an annular channel ( 4 ). 12. Damping device according to one of claims 7 to 11, characterized in that between the damping drum ( 7 ) and a cover plate ( 5 ) a nozzle disc ( 3 ) with different sized bores ( 6 ) is arranged. 13. Damping device according to claim 12, characterized in that the nozzle disc ( 3 ) is rotatably arranged.