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Sanelli
Antonio Sanelli, Concord, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20110005782 | METHOD AND APPARATUS FOR INSTALLING A SHANK WITHIN A RIPPER ASSEMBLY OF A TRACTOR/CRAWLER INVOLVING A ROTATING SHANK INSTALLER - An apparatus and method of installing a shank onto a ripper assembly of a tractor or crawler. A rotating shank installer (RSI) is welded onto a front face of a ripper assembly of a tractor, e.g., on the outside surface of a pocket beam. A portion of the RSI is allowed to rotate with respect to the pocket beam. With the shank in a substantially horizontal position with respect to the ground, the shank is secured between two plates of the RSI using pins wherein the plates can rotate with respect to the pocket beam. The shank is locked in place by two pins placed through the plates and the shank's weight is unbalanced with respect to the RSI. The ripper assembly is elevated causing the shank to rotate within the RSI to a substantially vertical position. The crawler is moved forward while lowering the ripper assembly in order to rip a groove into the ground with the bottom portion of the shank where the shank lowers into the ground. The RSI is disconnected from the shank wherein the shank is held in place by the grove. The bottom of the pocket is positioned over the top of the lowered shank and the pocket is lowered so that the shank is installed within the pocket and secured therein. | 01-13-2011 |
| 20120061112 | METHOD AND APPARATUS FOR INSTALLING A SHANK WITHIN A RIPPER ASSEMBLY OF A TRACTOR/CRAWLER INVOLVING A ROTATING SHANK INSTALLER - An apparatus and method of installing a shank onto a ripper assembly of a tractor or crawler. A rotating shank installer (RSI) is welded onto a front face of a ripper assembly of a tractor, e.g., on the outside surface of a pocket beam. A portion of the RSI is allowed to rotate with respect to the pocket beam. With the shank in a substantially horizontal position with respect to the ground, the shank is secured between two plates of the RSI using pins wherein the plates can rotate with respect to the pocket beam. The shank is locked in place by two pins placed through the plates and the shank's weight is unbalanced with respect to the RSI. The ripper assembly is elevated causing the shank to rotate within the RSI to a substantially vertical position. The crawler is moved forward while lowering the ripper assembly in order to rip a groove into the ground with the bottom portion of the shank where the shank lowers into the ground. The RSI is disconnected from the shank wherein the shank is held in place by the grove. The bottom of the pocket is positioned over the top of the lowered shank and the pocket is lowered so that the shank is installed within the pocked and secured therein. | 03-15-2012 |
Ron N. Sanelli, Maspeth, NY US
| Patent application number | Description | Published |
|---|---|---|
| 20080265917 | Return loss bridge circuit - A return loss bridge circuit for testing a balanced test impedance includes an input connector and a reflection connector. The input connector and the reflection connector are electrically connected to an output of a network analyzer and an input of the network analyzer, respectively. The return loss bridge circuit further includes a reference impedance connected between the input and reflection connectors, first and second transformers and a common mode choke. The common mode choke is electrically connectable to the balanced test impedance. | 10-30-2008 |
Steve Sanelli, Woodbury, CT US
| Patent application number | Description | Published |
|---|---|---|
| 20120125060 | APPARATUS AND METHOD FOR VENDING SECURELY STORED PRODUCTS TO CONSUMERS - A lock mechanism is disclosed, the lock mechanism having a rotary latch configured for rotation between a locked position and an unlocked position, the rotary latch rotating in a first plane and the rotary latch is retained in the locked position after it has been rotated into the locked position from the unlocked position, the rotary latch being spring biased into the unlocked position by a biasing member; and a first lock mechanism for retaining the rotary latch in the locked position after rotation of the rotary latch into the locked position, the rotary latch being capable of being manipulated back into the unlocked position from the locked position after actuation of the first locking mechanism into a release position, wherein actuation of the first lock mechanism is in a second plane that is not parallel to the first plane and wherein the first lock mechanism must be reset in order to subsequently release the rotary latch from the locked position. | 05-24-2012 |