Pneumatically operated active vibration damping device...

Spring devices – Resilient shock or vibration absorber – Including energy absorbing means or feature

Reexamination Certificate

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C267S267000, C267S140130

Reexamination Certificate

active

06264181

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to an active vibration damping device which is interposed between two members of a vibration system for connecting these two members or mounting one of these members on the other member in a vibration damping manner, so as to actively damp a vibration transmitted from one of the two members to the other. More particularly, the present invention is concerned with a pneumatically operated active vibration damping device which includes an air chamber formed between the two members, for applying an oscillating force between the two members based on a periodic change of the air pressure in the air chamber.
2. Description of the Related Art
An active vibration damping device is known as one type of a vibration damping device, such as a vibration damping coupling (bushing) or mount, which is interposed between two members of a vibration system so as to flexibly connect these two members or mount one of these members on the other member in a vibration damping manner. Such an active vibration damping device, as disclosed in JP-A-60-8540 (publication of Japanese unexamined patent application), JP-A-61-2939 (publication of Japanese unexamined patent application), and JP-U-61-191543 (publication of Japanese unexamined utility model application), for example, includes: a first and a second mounting member which are spaced apart from each other; an elastic body elastically connecting the first and second mounting members; and an oscillating force generating device which is adapted to generate and apply an oscillating force between the two mounting members, thereby adjusting vibration damping characteristics of the vibration damping device. The active vibration damping device is operable to generate the oscillating force corresponding to the vibration to be damped, and apply the oscillating force to the vibration member whose vibration to be damped, so that the active vibration damping device is capable of eliminating or reducing the vibration to be damped by canceling the input vibration by the oscillating force, or is capable of actively adjusting spring characteristics thereof according to the input vibration so as to provide an increased vibration damping characteristics thereof. Thus constructed active vibration damping device is considered to apply as an engine mount or a body mount for an automotive vehicle.
There is also proposed an active vibration damping device of another type wherein an air chamber is formed between a first and a second mounting members and is alternately connected to a negative pressure source and an atmosphere by a switching operation of a first switch valve, causing the oscillating force based on a periodic change of the air pressure in the air chamber, at a frequency corresponding to the frequency at which the first switch valve is alternately placed in two operating positions, namely a “vacuum position” for communication of the air chamber with a vacuum source, and an “atmospheric position” for communication of the air chamber with the atmosphere. This pneumatically operated type of active vibration damping device does not require a heavy and complicated member such as an electromagnetic actuator to be incorporated therein, resulting in reduction in the number of the required components, the size and weight and the required amount of electric power consumption of the device.
In the pneumatically operated type of active vibration damping device constructed as described above, it is important and desirable to control the first switch valve and the negative pressure in the air chamber so that not only the frequency and phase but also the amplitude of the oscillating force correspond to those of the vibration to be damped, in order to improve the active damping effect with respect to the vibration of the vibratile member of the vibration system.
To meet the need indicated above, there is proposed to (a) detect the frequency, phase and amplitude of the vibration to be damped, by using a suitable sensor such as an accelerometer or acceleration sensor, or estimate those frequency, phase and amplitude according to predetermined data maps, (b) control the frequency and phase of the switching operation of the switching valve, so that the frequency and phase of the oscillating force correspond to those of the vibration to be damped, and (c) control the negative pressure in the air chamber so that the amplitude of the oscillating force corresponds to that of the vibration to be damped.
Where the pneumatically operated vibration damping device is used for an automotive vehicle, and the air intake system of the engine of the vehicle is used as the vacuum source, it is difficult to regulate the negative pressure in the air intake system as a vacuum source, and it is therefore difficult to obtain the oscillation force whose amplitude corresponds to that of the vibration to be damped. The active vibration damping device does not provide a sufficiently high active vibration damping effect, or may even deteriorate the vibrating condition of the vibration members, if the amplitude of the oscillating force does not accurately correspond to that of the vibration of the object.
SUMMARY OF THE INVENTION
It is therefore an object of this invention to provide a pneumatically operated active vibration damping device having a novel structure, which permits an easy regulation of an oscillating force by a simple mechanism, and which exhibits an excellent and stable vibration damping effect, corresponding to a change of an air pressure of an air source connected to a working air chamber thereof and a change of a frequency, phase and amplitude of the vibration to be damped.
The above object may be accomplished according to the principle of the present invention which provides a pneumatically operated active vibration damping device interposed between two members of a vibration system for connecting the two members in a vibration damping manner, comprising: (a) a first and a second mounting member which are spaced apart from each other and are attachable to the two members of the vibration system, respectively; (b) an elastic body elastically connecting the first and second mounting members; (c) a working air chamber adapted to apply an oscillating force between the first and second mounting members, based on a periodic change of an air pressure in the working air chamber; and (d) a volume regulator adapted to regulate a volume of the working air chamber.
In the pneumatically operated active vibration damping device of the present invention constructed according to the above mode of the present invention, the oscillating force applied between the first and second mounting member can be controlled by changing the volume of the working air chamber. Namely, the active vibration damping device of the present invention is operable to increase the volume of the working air chamber in which the periodic change of the air pressure is generated, so that the magnitude of the periodic change of the air pressure induced in the working air chamber can be substantially reduced, resulting in reduction in the magnitude of the oscillating force. On the other hand, the active vibration damping device of the present invention is also operable to decrease the volume of the working air chamber, so that the magnitude of the periodic change of the air pressure induced in the air chamber can be substantially increased, resulting in increment in the magnitude of the oscillating force. In the present preferred form of the invention, the working air chamber may be connected to at least one external air pressure source for thereby causing the periodic change of the air pressure in the working air chamber. Thus, the present active vibration damping device is capable of adjusting the magnitude of the oscillating force by changing the volume of the working air chamber, even in the case where the air pressure of the employed external air pressure source is a fixed value, for example. Alternatively, the present active vibration d

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