DE1012780B - Suspension, consisting of a main and an additional spring - Google Patents

Description

Suspension, consisting of a main and an additional spring The invention relates to a suspension consisting of a main and an auxiliary spring, wherein the hardness of the additional spring can be changed by supplying a pressure medium.

In a known suspension of this type, the additional spring is one Coil spring. With the coil spring is a. hydraulic cylinder with a connected in parallel in this guided piston. By changing the filling of the hydraulic The hardness of the helical spring can be changed in the cylinder. This arrangement enables it is true, the suspension with the help of the changeable. Hardness of the additional spring itself, adapt to changing operating conditions, for example the suspension of a motor vehicle to adapt to changing road conditions. However, the arrangement has the disadvantages that it is relatively multi-part, prone to failure and expensive.

The suspension differs from the known suspension according to of the invention in that the additional spring is a known hollow rubber spring is, in the cavity of which the pressure medium can be introduced. This arrangement enables it, like the known arrangement described above, the suspension various operating states adapt, but it is simpler in its structure and less prone to failure than the well-known cushioning. The one for the different operating states of the suspension varying degrees of hardness desired depends on that on the cavity thereof exerted, this widening or narrowing pressure. The one on the cavity of the rubber spring The pressure exerted is determined by the deformation of the rubber spring in addition to its spring stiffness also the distance between the auxiliary spring and the main spring in such a way that the Distance between the main spring and the auxiliary spring in inverse proportion to Size of the pressure medium generated by the pressure medium introduced into the cavity of the auxiliary spring Pressure is on.

According to further features of the invention, which acts as an additional spring Gumnmi spring has a conical shape and is spaced from one with the carrier of the Rubber spring connected cylindrical sleeve made of inelastic material surrounded. According to the invention, rubber spring and sleeve are dimensioned so that when the pressure medium is introduced in the cavity of the rubber spring this increasingly with its outer surface the inner surface of the sleeve comes to rest. In this arrangement, the Hardness of the rubber spring except directly from the pressure of the inserted into the cavity Pressure medium depending on the extent to which the rubber spring fills the sleeve.

Although it is known to be filled with air. Bellows of a rubber-air spring to hold in plates at the top and bottom, with a short ring flange each Plate surrounds the bellows as a guide sleeve-like, so that the distance between bellows and ring flange of. the flange root increases steadily. Here, however, the increasing distance between each ring flange and the bellows has only the task of ensuring that as a result of a gradual lay-up of the spring bellows on the annular flange during compression, destruction of the bellows as a result sharp flange edges are not to be feared. A spring hardening effect the ring flanges can: practically not have, as they are too small for this purpose to have. In addition, the well-known spring is cylindrical or barrel-shaped instead of conical and not intended as an additional spring.

The invention is explained in more detail below with reference to the drawing. The drawing shows an exemplary and schematic representation of an inventive Suspension body with additional spring.

On the frame 1 of a vehicle, e.g. B. a motor vehicle, a Längblabtfeider 2 is suspended in the usual way. In its normal position, the head 3, which closes the collar of the spring 2 at the top, is at some distance from a hollow rubber spring 4. This rubber spring is attached to a plate 5 as the support of the rubber spring by vulcanization and is fixed to the frame 1 via this plate. With the plate 5, a rubber spring 4 is by far the surrounding sleeve 6 combined into one piece. To the cavity of the rubber spring 4 is through the mediation of the plate 5 a: pipe 7, a hose od., Like. permanently or detachably connected. The free end of this pipeline is to a Druekerzeugir, z. B. to a pump 8 connected. With the pump, a hydraulic and / or pneumatic pressure medium can be conveyed into the cavity of the rubber spring. If both a hydraulic and a pneumatic pressure medium are used, the pneumatic pressure medium is expediently upstream of the hydraulic pressure medium. The pump 8 can either be operated directly by hand with a hand lever 8a or by a motor by mechanical or automatic closing of an electrical contact. To control the automatic you can. known means are used. Such an automatic system can also have a z. B. gas-filled pressure bottle by opening a valve. are switched., then .das pressurized gas acts either directly or with a hydraulic medium in between on the cavity of the rubber spring. The actuation of the lever 8 a of the pressure generator designed as a pump 8 or other organs to be actuated by hand can be carried out from the driver's seat.

The conical outer shape of the rubber spring 4 is made by the sleeve 6 covers that the annular space between the sleeve and the rubber spring 4, depending on the pressure of the introduced pressure medium, is gradually filled by the Outer jacket of the rubber spring 4 increasingly on the inner jacket of the sleeve for support comes.

In order to make the suspension height of the device as large as possible, two or more rubber springs 4 can be arranged one above the other.

The additional spring can lie above the middle of the spring, but it can also similar to the installation of known oil shock absorbers, arranged next to the main spring will.

The hollow rubber springs, which by introducing a pressure medium can be changed in their hardness, .are in addition to the aforementioned. Possible applications also in the case of airborne or stationary systems and there in particular also in connection Can be used with springs other than leaf springs.

Of this, only the use of the described device for adaptation is considered the spring frequency to vibrating suspended or mounted machine parts (e.g. Power or working machines of any kind) and / or for damping. Bend and Torsional vibrations (in torsional vibration dampers of crankshafts in prime movers etc.) by adjusting the internal pressure and thereby changing the number of vibrations the rubber springs mentioned.

Claims (4)

PATENT CLAIMS 1. Suspension, consisting of a main and a Additional spring, the hardness of which can be changed by supplying a pressure medium, thereby characterized in that the additional spring (4, 16, 17) is a known, hollow rubber spring is, in the cavity of which the pressure medium can be introduced. 2. Cushioning according to claim 1, characterized by a conical outer shape of the rubber spring (4). 3. cushioning according to claim 2, characterized in that the rubber spring (4) at a distance of a cylindrical sleeve (6) connected to the support (5) of the rubber spring inelastic material is surrounded. 4. Cushioning according to claim 3, characterized in that the rubber spring (4) and the sleeve (6) are designed in a manner known per se so that when the pressure medium is introduced into the cavity of the rubber spring, it is increasingly on the inner surface with its outer surface The outer surface of the sleeve comes to rest. Considered publications: German Patent Specifications No. 20 204, 612 843, 811893.