DE1262685B - Fluid spring with temperature compensation - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY GERMAN ^ fijX ^ PATENT OFFICE

EDITORIAL

Int. Cl .:

F16f

German classes: 47a-4f-,

Number: 1262 685

File number: V 30736 XII / 47 a

Filing date: March 28, 1966

Opening day: March 7, 1968

The invention relates to a liquid spring with temperature compensation by an additional, of a mechanical spring in the direction of compression that is unaffected by dynamic hydraulic shocks loaded piston.

They are temperature compensation devices with steel or diaphragm working via piston or membrane Gas spring known (patent specification No. 39058 of the Office for Invention and Patents in the Soviet Occupation zone of Germany), which is a chamber separated from the working area of the liquid spring and in the area of the pre-tensioning force via a valve, throttle cross-section or a capillary bore cooperate with the liquid spring to reduce the volume change caused by the temperature fluctuations to balance the liquid.

Furthermore, a liquid spring with a refill device with subdivision of the working space into two subspaces known (USA.-Patent 2 930 608), which are connected by a throttle cross-section are, with the one space is constantly under the pressure of a steel spring, so that a temperature equalization takes place.

The known solutions have the disadvantage that they are structurally large and complex, on the other hand represent two separate constructive structures as refill devices.

The invention is based on the object of a liquid spring with a temperature range in a certain range Preload largely independent of the temperature and with a very simple structure high operational reliability, using a liquid medium and a complex liquid body, to accomplish.

According to the invention this is done in that a collar of the additional piston the spring chamber of the Liquid spring divides into two liquid spaces, which are connected to one another via a remaining throttle cross-section are connected. This means that they are constantly involved in the spring work together.

Depending on a certain temperature range, the mechanical spring will be large Spring travel and spring forces required for small dimensions. Because this requirement is difficult to achieve is, the additional piston is designed as a piston combination. To the extra piston is for this purpose another piston provided with a collar at its inner end is arranged. This is by means of a stop at the outer end of the former piston to move into the spring interior. Based an embodiment shown in the drawing, the invention is to be explained in more detail.

Liquid spring with temperature compensation

Applicant:

VEB central development and construction

ZEK hydraulics,

Leipzig, Dr.-Kurt-Fischer-Str. 33

Named as inventor:
Karl Bittel, Markkleeberg;
Hans-Dieter Schulze, Leipzig

The temperature compensation device is shown in a structural combination with a liquid spring 1 to be subjected to pressure. A piston 3 is sealingly guided in a socket 2 of the liquid spring 1. Its collar 3 α rests against a stop surface 4. An additional piston 5 is guided and sealed in the piston 3. Through its

a5 federal government 5 α two liquid spaces 6 arise; 7, which are connected via a remaining throttle cross section 8. Due to the throttle cross-section 8, a steel spring 9, which is clamped between the stop surface 4 and the collar 5 α, remains unaffected by dynamic hydraulic shocks. At the free end of the piston 5 protruding from the liquid spring 1, a stop 10 is provided which rests against the piston 3 when the piston 5 moves accordingly. The working piston of the spring is not shown.

The mode of operation of the liquid spring is as follows: The one that occurs due to temperature differences The change in liquid volume and the associated pressure change in the liquid spring 1 is determined by the stroke volume the piston 3 loaded by the steel spring 9; 5 almost balanced. When the pressure increases the piston 5 is displaced outwards against the steel spring 9. When the pressure drops, the piston will 5 and further by means of its stop 10 also the piston 3 through the steel spring 9 into the Inside of the liquid spring 1 moves. The steel spring 9 remains constant from dynamic hydraulic shocks the actual suspension process unaffected, there About the throttle cross-section 8 of the liquid space 6 absorbs the load, so that at the moment of When the liquid in space 6 hits, it acts as a separate spring column.

809 517/350

Claims (2)

I 262 685 claims: 1. Liquid spring with temperature compensation by an additional piston loaded in the compression direction by a mechanical spring unaffected by dynamic hydraulic impacts, characterized in that a collar (5 ä) of the additional piston (5) divides the Eeder space into two liquid spaces (6; 7) parts, which ^{are connected to one another via 1} a remaining throttle cross-section (8). 2. Liquid spring according to claim 1, characterized in that around the additional piston (S) a further sealed against this, pierced piston (3) is arranged, which in turn is guided in a sealing manner in a sleeve (2), the additional piston (S) at its from the liquid space protruding end has a stop (10) which when the spring is partially relaxed (9) rests on the outwardly protruding end of the pierced piston (3). Considered publications:
Patent Specification No. 39 058 of the Office for Inventions and Patents in the Soviet Zone of Occupation in Germany; U.S. Patent No. 2,930,608. 1 sheet of drawings 809 517/350 2.68 © Bundesdruckerei Berlin