Vibration isolation for compactor

The invention claimed is: 1. A vibratory compactor, comprising: a drum; a propulsion motor configured to rotate the drum; a drive plate disposed between the propulsion motor and the drum in such a way as to be connected to the propulsion motor to transmit a rotating force to the drum; a drum support configured to rotatably support the drum; a first active isolation mass disposed between the drum support and the drum; a second active isolation mass disposed between the drive plate and the drum; a plurality of connectors disposed between the drum support and the first active isolation mass, between the first active isolation mass and the drum, between the drum and the second active isolation mass, and between the second active isolation mass and the drive plate; an eccentric shaft configured to be rotated while penetrating through the first active isolation mass, the drum, and the second active isolation mass; a primary eccentric weight attached to the eccentric shaft inside the drum; an active isolation eccentric weight attached to the each of the eccentric shaft inside the first active isolation mass and the second active isolation mass; and a vibration motor configured to rotate the eccentric shaft, wherein when the eccentric shaft is rotated, a phase of a vibration generated by the active isolation eccentric weights is opposite to that of a vibration generated by the primary eccentric weight, and the vibration generated by the active isolation eccentric weights cancels the vibration generated by the primary eccentric weight. 2. The active isolation apparatus according to claim 1 , wherein at least one of the connectors serves as an isolator, and the isolator reduces a vibration generated by the first active isolation mass, the drum, and the second active isolation mass when the drum is rotated. 3. The vibratory compactor according to claim 1 , wherein at least one of the connectors serves as an isolator, and the isolator reduces a vibration generated by the first active isolation mass, the drum, and the second active isolation mass when the drum is rotated. 4. The vibratory compactor according to claim 3 , wherein the isolator is made of a resilient material that can absorb the vibration. 5. The active isolation apparatus according to claim 3 , wherein the isolator is made of a resilient material that can absorb the vibration. 6. A vibratory compactor comprising: a drum; a propulsion motor configured to rotate the drum; a drive plate disposed between the propulsion motor and the drum in such a way as to be connected to the propulsion motor to transmit a rotating force to the drum; a drum support configured to rotatably support the drum; a frame provided at one side with a carrier bearing and the drum support and provided at the other side with the propulsion motor connected to the drive plate; a first active isolation mass disposed between the drum support and the drum; a second active isolation mass disposed between the drive plate and the drum; a plurality of connectors disposed between the drum support and the first active isolation mass, between the first active isolation mass and the drum, between the drum and the second active isolation mass, and between the second active isolation mass and the drive plate; an eccentric shaft configured to be rotated while penetrating through the first active isolation mass, the drum, and the second active isolation mass; a primary eccentric weight attached to the eccentric shaft inside the drum; active isolation eccentric weights attached respectively to the eccentric shaft inside the first active isolation mass and the second active isolation mass; and a vibration motor configured to rotate the eccentric shaft, wherein when the eccentric shaft is rotated, a phase of a vibration generated by the active isolation eccentric weights is opposite to that of a vibration generated by the primary eccentric weight, and the vibration generated by the active isolation eccentric weights cancels the vibration generated by the primary eccentric weight. 7. The vibratory compactor according to claim 6 , wherein at least one of the connectors serves as an isolator, and the isolator reduces a vibration generated by the first active isolation mass, the drum, and the second active isolation mass when the drum is rotated. 8. The vibratory compactor according to claim 7 , wherein the isolator is made of a resilient material that can absorb the vibration. 9. The active isolation apparatus comprising: a drum; a drive plate to rotate the drum; a drum support configured to rotatably support the drum; a first active isolation mass disposed between the drum support and the drum; a second active isolation mass disposed between the drive plate and the drum; a plurality of connectors disposed between the drum support and the first active isolation mass, between the first active isolation mass and the drum, between the drum and the second active isolation mass, and between the second active isolation mass and the drive plate; an eccentric shaft configured to be rotated while penetrating through the first active isolation mass, the drum, and the second active isolation mass; a primary eccentric weight attached to the eccentric shaft inside the drum; an active isolation eccentric weight attached to each of the eccentric shaft inside the first active isolation mass and the second active isolation mass; and a vibration motor configured to rotate the eccentric shaft, wherein when the eccentric shaft is rotated, a phase of a vibration generated by the active isolation eccentric weights is opposite to that of a vibration generated by the primary eccentric weight, and the vibration generated by the active isolation eccentric weights cancels the vibration generated by the primary eccentric weight.