Brakes – Internal-resistance motion retarder – With means compensating for change in temperature or viscosity
Reexamination Certificate
2001-03-26
2002-10-22
Rodriguez, Pam (Department: 3683)
Brakes
Internal-resistance motion retarder
With means compensating for change in temperature or viscosity
C188S284000, C188S313000, C267S064260
Reexamination Certificate
active
06467592
ABSTRACT:
FIELD OF THE INVENTION
The present invention concerns an arrangement for a piston and cylinder device.
BACKGROUND AND SUMMARY OF THE INVENTION
Piston and cylinder devices as such are used in a number of applications, for example in the form of positioning and manoeuvering devices such as drive cylinders in order to achieve manoeuvering movements in machines, or in the form of shock absorbers in order to absorb and dampen movements between elements that are jointed to pivot with each other. The above-mentioned types of piston- and cylinder devices, independently of whether they are designed to be used as positioning and manoeuvering devices or as shock absorbers, have in common that they display an inlet/outlet to each chamber such that the medium that is used can be added to and removed from the said chambers. However, for a shock absorber, the inlet/outlet to each chamber of the piston- and cylinder device are connected together and designed as a common channel or passage such that the medium can flow forwards and backwards between the two chambers during the forward and backwards motion of the piston device in the cylinder. On the other hand, in the type of piston- and cylinder device that is used as a drive cylinder or positioning device, the inlet/outlet of each chamber are separate from each other and are each individually in flow-through connection with an external circuit that contains, among other things, devices for the control of direction of some pressurized medium such as oil or air.
In the case of shock absorbers, the above-mentioned passage between the chambers is arranged in the actual piston device whereby the damping force that thus arises is mainly derived from the friction of the medium in the channel. The said damping force can be regulated by varying the resistance to flow or the speed and rate of flow with which the medium is allowed to flow forwards and backwards through the channel.
Recently, piston and cylinder devices have been developed with integral position-sensitive elements, that is, devices that make it possible to determine the motion of the piston device relative to the cylinder unit. The position-sensitive devices are usually connected to an external control unit, for example in the form of a computer. In the case of shock absorbers, the computer can be provided with the information that is required to control and regulate the damping properties or characteristic of the shock absorber in a way that is suitable for the application. For example, the damping force or characteristic of the shock absorber can be varied depending on the properties of the road surface, the speed, tilt, etc., or depending on parameters that are specified in advance, that is, if the vehicle is to offer a smooth and comfortable journey and thus offer high comfort for the travellers, or to allow more advanced and demanding driving. The computer can also be supplied with information about the speed, acceleration, etc., of the vehicle, in order to calculate an optimal damping characteristic of the shock absorber for the current driving conditions, based on the information that is supplied.
Shock absorbers are also known in which it is possible to measure the temperature of the medium that is exchanged between the two chambers of the shock absorber. If the properties of the medium that has been chosen to function in the shock absorber are previously known and these properties are stored in a computer, the measured temperature of the medium can be used to calculate its internal friction, or viscosity, at each instant. By regulating, based on this information, the speed and the rate of flow with which the medium is allowed to flow through the flow channel that exists between the two chambers of the shock absorber, the properties of the shock absorber can also be maintained essentially constant, independent of the temperature of the surroundings or of the shock absorber itself.
Piston and cylinder devices that are currently known have fairly complicated constructions in order to allow the medium to flow into and out from the chambers, and to make it possible to control and guide the movements of the piston and cylinder device.
One intention of the invention is to achieve a piston and cylinder device that not only makes it possible for the medium to flow into and out from the chambers, but also allows in this part control and guidance of the movements of the piston in the piston and cylinder device.
REFERENCES:
patent: 3827538 (1974-08-01), Morgan
patent: 4749070 (1988-06-01), Moser et al.
patent: 5396973 (1995-03-01), Schwemmer et al.
patent: 5467852 (1995-11-01), de Kock
Fasth Rolf
Fasth Law Offices
Rodriguez Pam
LandOfFree
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