Vehicle vibration dampening mount assembly

What is claimed is: 1. A vibration dampening mount assembly comprising: a housing having interior surface, a first end and a second end; a resilient material having an outer portion fixedly attached to the interior surface of the housing and defining a first chamber, a second chamber and a third chamber with a first passage extending from the first chamber to the second chamber the first passage being in fluid communication with the first chamber and the second chamber, the third chamber being a sealed chamber filled with hydraulic fluid; a sleeve disposed within the housing and being fixedly attached to a central portion of the resilient material, the sleeve extending from proximate the first end to the second end of the housing, the sleeve defining a central axis; and a solenoid having a fixed portion mounted to the first end of the housing and a movable portion fixedly attached to the resilient material adjacent to the third chamber, the movable portion being concentrically arranged around the central axis, the fixed portion having an electromagnetic coil arranged concentrically around the central axis with the movable portion being located between the third chamber and the electromagnetic coil relative to the central axis, the solenoid being configured to selectively move the moveable portion, the sleeve and the central portion of the resilient material in response to electrical current being provided to the electromagnetic coil. 2. The vibration dampening mount assembly of claim 1 , further comprising a sensor configured to detect vibrations, and a controller connected to the sensor and the solenoid, the controller being configured to operate the solenoid in response to the vibrations detected by the sensor. 3. The vibration dampening mount assembly of claim 2 , further comprising the sensor is an accelerometer. 4. The vibration dampening mount assembly of claim 1 , wherein the sleeve defines a central aperture that extends from proximate the first end of the housing to the solenoid, with the first chamber, the second chamber and the third chamber being concentric about the central axis defined by the sleeve. 5. The vibration dampening mount assembly of claim 4 , wherein the central aperture is dimensioned to receive an elongated fastener configured to fix the central portion of the resilient material to a first portion a vehicle, and the housing includes and attachment portion that is configured to attach to a second portion of the vehicle. 6. The vibration dampening mount assembly of claim 5 , wherein the first portion of the vehicle is a frame and the second portion of the vehicle is a cabin structure installed to the frame. 7. The vibration dampening mount assembly of claim 5 , further comprising a sensor installed to one of the first portion and the second portion of the vehicle, the sensor being configured to detect vibrations, and a controller connected to the sensor and the solenoid, the controller being configured to operate the solenoid in response to the vibrations detected by the sensor. 8. The vibration dampening mount assembly of claim 7 , further comprising the sensor is an accelerometer. 9. The vibration dampening mount assembly of claim 1 , wherein the passageway of the resilient material extends from the first chamber to the second chamber and provides restricted fluid communication between the first and second chambers in order to dampen vibration. 10. A vehicle vibration dampening mount assembly comprising: a first portion and a second portion of a vehicle structure; a housing having interior surface, a first end and a second end attached to the first portion of the vehicle structure; a resilient material having an outer portion fixedly attached to the interior surface of the housing and defining a first chamber, a second chamber and a third chamber with a passage extending from the first chamber to the second chamber the passage being in fluid communication with the first chamber and the second chamber, the third chamber being a sealed chamber filled with hydraulic fluid; a sleeve disposed within the housing and being fixedly attached to a central portion of the resilient material, the sleeve extending from proximate the first end to the second end of the housing, the sleeve being attached to the second portion of the vehicle, the sleeve defining a central axis; a solenoid having a fixed portion mounted to the first end of the housing and a movable portion fixedly attached to the resilient material adjacent to the third chamber, the movable portion being concentrically arranged around the central axis, the fixed portion having an electromagnetic coil arranged concentrically around the central axis with the movable portion being located between the third chamber and the electromagnetic coil relative to the central axis, the solenoid being configured to selectively move the moveable portion, the sleeve and the central portion of the resilient material in response to detection of vibrations between the first portion and the second portion of the vehicle structure. 11. The vibration dampening mount assembly of claim 10 , further comprising a sensor installed within the vehicle structure and configured to detect vibrations, and a controller installed within the vehicle structure and being connected to the sensor and the solenoid, the controller being configured to operate the solenoid in response to the vibrations detected by the sensor. 12. The vibration dampening mount assembly of claim 11 , further comprising the sensor is an accelerometer. 13. The vibration dampening mount assembly of claim 10 , wherein the sleeve defines a central aperture that extends from proximate the first end of the housing to the solenoid, with the first chamber, the second chamber and the third chamber being concentric about a central axis defined by the central aperture. 14. The vibration dampening mount assembly of claim 13 , wherein the central aperture is dimensioned to receive an elongated fastener that fix the central portion of the resilient material, the sleeve and the movable portion of the solenoid to the second portion a vehicle, and the housing includes and attachment portion that is configured to attach to a second portion of the vehicle. 15. The vibration dampening mount assembly of claim 14 , wherein the first portion of the vehicle structure is a vehicle body frame and the second portion of the vehicle body structure is a cabin structure installed beneath the body structure. 16. The vibration dampening mount assembly of claim 11 , wherein the passageway of the resilient material extends from the first chamber to the second chamber and provides restricted fluid communication between the first and second chambers in order to dampen vibration.