DE2642932A1 - Railway rolling stock buffer - comprising two pressure-responsive sealing rings connected by pressure-equalising chamber contg. fluid e.g. silicone oil - Google Patents

Abstract

The buffer contains a piston moving in a pressure vessel filled with a compressible fluid, e.g., silicone oil. The piston rod passes through two sealing rings, each of which is split at one side and arranged sot that the split widens as the pressure on it increases, and tightens the seal. The novelty is that a pressure-equalising chamber, contg. the same compressible fluid, connects the two sealing rings, which thus both respond at once to any increase of pressure in the main vessel. A non-return valve pref. conveys any excess fluid from the pressure-equalising chamber back into the main vessel.

Description

Sealing the piston rod of a

Spring and damping device The invention relates to a seal the piston rod of a spring and damping device, for example a buffer for rail vehicles, which device has a compressible pressure medium, e.g. a silicone oil, filled pressure chamber.

For rail vehicle buffers there is a requirement for a certain and a largely constant pre-tensioning force over the operational period of use. This pretensioning force can be achieved by filling the pressure medium with the appropriate Pressure can be achieved in a simple manner. Maintaining it as constant as possible creates difficulties, however, when you consider that when the buffer is loaded with maximum impact force in the pressure chamber, a pressure of the order of 3000 bar is present and seals are to be provided that can be relieved at these pressures prevent the loss of pressure medium leading to the preload force with some degree of certainty.

The invention is based on the object as simple as possible and to create an effective seal even with the high pressures that occur.

This object is achieved in that between two in the stroke direction of the piston rod at a distance from one another and in each case against the direction an introduced impact force spreading arranged lip seals with the Compressible pressure medium filled compensation space is provided.

For an accelerated return flow of the pressure medium from the compensation chamber in the pressure chamber it is provided according to one embodiment of the invention that the Compensating chamber with a non-return valve that allows through to the pressure chamber Space communicates.

Embodiments of the invention are described below with reference to the Drawing explained in more detail. 1 shows the seal according to the invention on one half of a sleeve buffer, in longitudinal section, Fig. 2, a further training the seal according to FIG. 1, shown on the other half of the buffer.

The sleeve buffer according to FIGS. 1 and 2 has an inner housing part 8, which at its hollow cylindrical end by a piston rod 1 below Interposition of sliding bushings 9 and 9a receiving screw plug 10 completed is and in this way with the compressible pressure medium 4, a silicone oil, filled pressure space 6 forms. The housing part 8 is partially from an outer one Surrounding housing part 11, which is supported against the free end of the piston rod 1 Buffer plate 11a carries. To set the two housing parts 8 and 11 against the A split retaining ring 12 is used in the direction of impact of the piston rod 1.

The seals shown in FIGS. 1 and 2 have the following in common Structure: On the pressure chamber side is between the piston rod 1 and the screw plug 10 a first lip seal 2 is arranged. In this seal 2 engages in the middle and spreading a sleeve 13a cooperating with a flange 13, the flange 13th is releasably attached to the screw plug 10. At a distance, which is determined here by the width of the sliding bush 9, there is a second, against the outer sliding bushing 9a supported lip seal 3, which is also of a sleeve 13b is acted upon in a spreading manner. Between the two lip seals 2 and 3 there is a compensation space 5 filled with the pressure medium 4, which according to FIG. 1 formed in the sliding bushing 9 and according to FIG. 2 in the screw plug 10 and is open towards the piston rod 1 via bores 5a.

For the following explanation of the function it should be assumed that that in the pressure chamber 6 to build up a biasing force of the buffer an initial pressure of 50 bar is present, which also prevails in the compensation chamber 5. The lip seals 2 and 3 are designed at least according to the initial pressure and are controlled by this Pressure additionally spread. Increased under the effect of an occurring impact force the pressure in the pressure chamber 6 briefly increases to 3000 bar, for example. In this If the pressure medium 4 flowing past the first lip seal 2 has the effect of increasing the pressure in the compensation chamber 5, which due to the throttling effect of the first seal 2 with a much lower pressure applied to another lip seal 3 an outlet of the pressure medium 4 prevented. When the piston rod 1 returns, the pressure medium flows 4 in the embodiment of FIG. 1 along the direction of impact of this rod 1 as Effective passage lip seal 2 under pressure equalization back into the pressure chamber 6, so that the initial pressure is largely constant. In the case of the seal according to FIG. 2 the return flow of the pressure medium 4 takes place via a valve arranged in the screw plug 10 Longitudinal bore 10a and a check valve 7.

Claims (2)

Claims: 1. Sealing of the piston rod of a spring and damping device, For example, a buffer for rail vehicles, which device one with has a compressible pressure medium, e.g. a silicone oil, filled pressure chamber, characterized in that between two in the stroke direction of the piston rod (1) with Distance to each other and in each case against the direction of an introduced impact force spreading lip seals (2 and 3) with the compressible pressure medium (4) filled compensation space (5) is provided. 2. Seal according to claim 1, characterized in that the compensation space (5) through a non-return valve (7) that allows passage to the pressure chamber (6) with the latter Room (6) communicates.