Abstract: Downhole vibratory tools that use fluid flow to reciprocate a rotor in a vibration chamber and associated methods and processes. In a first illustrative embodiment, an elongated external housing allows connection to a drillstring, behind a downhole drill. From a top sub, fluid flows through a first flow plate and spiral flow chamber to enter a central vibration chamber in a spiral direction and exits the vibration chamber through a counterpart second flow plate and spiral flow chamber. A rotor is disposed in the vibration chamber. The spiral flow through the vibration chamber causes the rotor to reciprocate around the vibration chamber, thereby creating vibrations that are transmitted to the drillstring. Methods of use include deploying the vibration tool to improve rates of penetration and enhances reach by creating resonance vibrations against the wall of a wellbore to effectively break static friction.

Abstract: Downhole vibratory tools that use fluid flow to reciprocate a rotor in a vibration chamber and associated methods and processes. In a first illustrative embodiment, an elongated external housing allows connection to a drillstring, behind a downhole drill. From a top sub, fluid flows through a first flow plate and spiral flow chamber to enter a central vibration chamber in a spiral direction and exits the vibration chamber through a counterpart second flow plate and spiral flow chamber. A rotor is disposed in the vibration chamber. The spiral flow through the vibration chamber causes the rotor to reciprocate around the vibration chamber, thereby creating vibrations that are transmitted to the drillstring. Methods of use include deploying the vibration tool to improve rates of penetration and enhances reach by creating resonance vibrations against the wall of a wellbore to effectively break static friction.

Abstract: A user-selectable force conversion apparatus includes a first and a second connecting member that are pivotally connected to each other between a sliding member and a fixed member. The apparatus also includes a leaf spring holder for removably retaining one or more leaf springs and loading the second connecting member with a substantially linear force response of the leaf springs. A user may change the combination of leaf springs and/or vary a length ratio for the first and second connecting members and thereby change the force response of the apparatus. Movement of the sliding member by the mechanical input may convert the substantially linear force response of the leaf springs to a user-selected force response for the mechanical input. A corresponding method is also disclosed.

Abstract: A user-selectable force conversion apparatus includes a first and a second connecting member that are pivotally connected to each other between a sliding member and a fixed member. The apparatus also includes a leaf spring holder for removably retaining one or more leaf springs and loading the second connecting member with a substantially linear force response of the leaf springs. A user may change the combination of leaf springs and/or vary a length ratio for the first and second connecting members and thereby change the force response of the apparatus. Movement of the sliding member by the mechanical input may convert the substantially linear force response of the leaf springs to a user-selected force response for the mechanical input. A corresponding method is also disclosed.