Self-seating damper clamp

What is claimed is: 1. A damper clamp comprising: a clamp assembly comprising: a body defining a conductor holding portion and a damper holding portion, wherein the conductor holding portion includes a base having a stem receiving aperture, a seat, and a wall between the base and the seat, wherein the wall has an inner surface at least partially surrounding the stem receiving aperture and forming a channel extending along the wall from the base in a direction toward the seat, wherein the base, seat and wall form a conductor receiving opening, and wherein the damper holding portion includes a lead-in portion, the lead-in portion extending from the base at an angle relative to the base such that a surface of the lead-in portion is positioned to guide the conductor into the conductor receiving opening; a stem extending through the stem receiving aperture in the base and at least partially receivable in the channel, the stem having a keeper coupling member at or near a first end of the stem and a tool mounting member at a second end of the stem; a keeper having a pressure plate and a stem bracket extending from the pressure plate, the stem bracket is received in the channel of the inner surface of the wall and operatively coupled to the stem, wherein the keeper is movable between an open position permitting a conductor to be received within the conductor receiving opening and a clamping position where the conductor is clamped between the seat and the keeper; a spring around the stem between the keeper and the base to bias the keeper toward the clamping position to at least temporarily hold the conductor between the seat and the keeper; wherein when the keeper is in the clamping position, rotational movement of the stem is translated to linear movement of the keeper to securely tighten the conductor between the seat and the keeper; and a damper assembly secured to the damper holding portion of the body. 2. The damper clamp according to claim 1 , wherein the stem bracket of the keeper includes an aperture configured to receive the keeper coupling member. 3. The damper clamp according to claim 1 , wherein the stem includes a shaft having a distal end portion that includes the keeper coupling member and a proximal end portion that includes the tool mounting member, and a fastening member between the proximal end portion of the shaft and the tool mounting member, and wherein the fastening member is configured to threadably engage the stem receiving aperture of the base to linearly move the keeper by rotating the stem. 4. The damper clamp according to claim 3 , wherein a diameter of the distal end portion of the shaft is less than a diameter of the proximal end portion of the shaft. 5. The damper clamp according to claim 3 , further comprising a second spring that fits around the distal end portion of the shaft and is positioned between the stem bracket of the keeper and the proximal end portion of the shaft. 6. The damper clamp according to claim 1 , wherein the damper holding portion includes a damper holder member that includes an aperture that is positioned so that a center of the aperture is vertically in-line with and vertically parallel to a center of the seat. 7. The damper clamp according to claim 1 , wherein the damper assembly includes a weight holding member secured to the damper holding portion of the body and at least one damper weight secured to the weight holding member. 8. A damper clamp comprising: a clamp assembly comprising: a body defining a conductor holding portion and a damper holding portion, wherein the conductor holding portion includes a base having a stem receiving aperture, a seat configured to receive a portion of a conductor, and a wall between the base and the seat, the wall having a channel extending from the base in a direction toward the seat, wherein the base, seat and wall form a conductor receiving opening, and wherein the damper holding portion includes a lead-in portion, the lead-in portion extending from the base at an angle relative to the base such that a surface of the lead-in portion is positioned to guide the conductor into the conductor receiving opening; a stem extending through the stem receiving aperture in the base, the stem having a keeper coupling member at or near a first end of the stem and a tool mounting member at or near a second end of the stem; a keeper having a pressure plate and a stem bracket extending from the pressure plate, the stem bracket is configured to be received in the channel of the wall and is operatively coupled to the stem, wherein the keeper is movable between an open position permitting a conductor to be received within the conductor receiving opening and a clamping position where the conductor is clamped between the seat and the keeper; a biasing member operatively engaged with the keeper to bias the keeper toward the clamping position to at least temporarily hold the conductor between the seat and the keeper; wherein when the keeper is in the clamping position, rotational movement of the stem is translated to linear movement of the keeper to securely tighten the conductor between the seat and the keeper; and a damper assembly secured to the damper holding portion of the body. 9. The damper clamp according to claim 8 , wherein the stem bracket of the keeper includes an aperture configured to receive the keeper coupling member. 10. The damper clamp according to claim 8 , wherein the biasing member comprises a spring around the stem between the keeper and the base. 11. The damper clamp according to claim 8 , wherein the stem includes a shaft having a distal end portion that includes the keeper coupling member and a proximal end portion that includes the tool mounting member, the proximal end portion of the shaft having a fastening member configured to threadably engage the stem receiving aperture of the base. 12. The damper clamp according to claim 11 , wherein a diameter of the distal end portion of the shaft is less than a diameter of the proximal end portion of the shaft. 13. The damper clamp according to claim 11 , further comprising a second biasing member associated with the stem bracket of the keeper and the proximal end portion of the shaft to bias the keeper toward the clamping position. 14. The damper clamp according to claim 13 , wherein the second biasing member comprises a second spring that fits around the distal end portion of the shaft and is positioned between the stem bracket of the keeper and the proximal end portion of the shaft. 15. The damper clamp according to claim 8 , wherein the damper holding portion includes a damper holder member having an aperture that is positioned so that a center of the aperture is vertically in-line with and vertically parallel to a center of the seat. 16. The damper clamp according to claim 8 , wherein the damper assembly includes a weight holding member secured to the damper holding portion of the body and at least one damper weight secured to the weight holding member. 17. A damper clamp comprising: a clamp assembly comprising: a body defining a conductor holding portion and a damper holding portion, wherein the conductor holding portion includes a base having a stem receiving aperture, a seat, and a wall between the base and the seat, the wall having a channel extending from the base in a direction toward the seat, the base, seat and wall form a conductor receiving opening, and wherein the damper holding portion includes a lead-in portion extending from the base at an angle relative to the base such that a surface of the lead-in portion is positioned t