A hard drive particle cleaning system includes an air source, an ionizer module coupled to the air source via upstream tubing, a mechanical shock system configured to secure a hard drive and apply a mechanical shock to the hard drive to dislodge particles inside the hard drive, and an exhaust system
A hard drive particle cleaning system includes an air source, an ionizer module coupled to the air source via upstream tubing, a mechanical shock system configured to secure a hard drive and apply a mechanical shock to the hard drive to dislodge particles inside the hard drive, and an exhaust system. The ionizer module includes a shell and an inlet nozzle arranged in a first end of the shell and coupled to the upstream tubing for supplying a stream of air from the air source into the shell.
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1. An ionizer module for ionizing a stream of air in a hard drive particle cleaning system, the ionizer module comprising: a shell;an inlet nozzle arranged in a first end of the shell and configured to be coupled to upstream tubing for supplying a stream of air into the shell;an emitter ring mounted
1. An ionizer module for ionizing a stream of air in a hard drive particle cleaning system, the ionizer module comprising: a shell;an inlet nozzle arranged in a first end of the shell and configured to be coupled to upstream tubing for supplying a stream of air into the shell;an emitter ring mounted on an inner surface of the shell, the emitter ring comprising a plurality of emitter points positioned along an inner surface of the emitter ring, wherein the emitter ring is configured to be coupled to a power source for ionizing the stream of air in the shell;a diffuser arranged on the inner surface of the shell between the first end of the shell and the emitter ring, wherein the diffuser is configured to provide an even flow of the stream of air across the plurality of emitter points; andan outlet nozzle arranged in a second end of the shell opposite the first end of the shell and configured to be coupled to downstream tubing for supplying the ionized stream of air into a hard drive. 2. The ionizer module according to claim 1, wherein the plurality of emitter points comprises a plurality of positive emitter points for creating positive ions and a plurality of negative emitter points for creating negative ions, and wherein the plurality of positive emitter points and the plurality of negative emitter points are alternately positioned along the inner surface of the emitter ring. 3. The ionizer module according to claim 2, wherein the number of positive emitter points equals the number of negative emitter points. 4. The ionizer module according to claim 1, further comprising an airflow sensor coupled to the inlet nozzle and configured to measure a flow rate of a stream of air being supplied into the shell. 5. The ionizer module according to claim 1, further comprising an ion sensor arranged at the second end of the shell and configured to sample an ionic rate of the ionized stream of air being supplied to the hard drive. 6. The ionizer module according to claim 5, wherein the ion sensor comprises a metal grid through which the ionized stream of air flows, wherein the ionic rate of the ionized stream of air is sampled by measuring an electrical potential of the metal grid. 7. A hard drive particle cleaning system, comprising: an air source;an ionizer module coupled to the air source via upstream tubing, wherein the ionizer module comprises: a shell;an inlet nozzle arranged in a first end of the shell and coupled to the upstream tubing for supplying a stream of air from the air source into the shell;an emitter ring mounted on an inner surface of the shell, the emitter ring comprising a plurality of emitter points positioned along an inner surface of the emitter ring, wherein the emitter ring is configured to be coupled to a power source for ionizing the stream of air in the shell;a diffuser arranged on the inner surface of the shell between the first end of the shell and the emitter ring, wherein the diffuser is configured to provide an even flow of the stream of air across the plurality of emitter points; andan outlet nozzle arranged in a second end of the shell opposite the first end of the shell and coupled to downstream tubing;a mechanical shock system configured to secure a hard drive and apply a mechanical shock to the hard drive to dislodge particles inside the hard drive; andan exhaust system,wherein the downstream tubing is configured to be detachably coupled to a first opening in the hard drive for supplying the ionized stream of air into the hard drive and the exhaust system is configured to be detachably coupled to a second opening in the hard drive for exhausting the ionized stream of air and dislodged particles from inside the hard drive. 8. The hard drive particle cleaning system according to claim 7, wherein the plurality of emitter points comprises a plurality of positive emitter points for creating positive ions and a plurality of negative emitter points for creating negative ions, and wherein the plurality of positive emitter points and the plurality of negative emitter points are alternately positioned along the inner surface of the emitter ring. 9. The hard drive particle cleaning system according to claim 8, wherein the number of positive emitter points equals the number of negative emitter points. 10. The hard drive particle cleaning system according to claim 7, further comprising: an airflow sensor coupled to the inlet nozzle and configured to measure a flow rate of a stream of air being supplied into the shell; anda controller configured to control the power supplied by the power source to the emitter ring based on the flow rate measured by the airflow sensor. 11. The hard drive particle cleaning system according to claim 7, further comprising: an ion sensor arranged at the second end of the shell and configured to sample an ionic rate of the ionized stream of air being supplied to the hard drive; anda controller configured to control the power supplied by the power source to the emitter ring based on the ionic rate sampled by the ion sensor. 12. The hard drive particle cleaning system according to claim 11, wherein the ion sensor comprises a metal grid through which the ionized stream of air flows, wherein the ionic rate of the ionized stream of air is sampled by measuring an electrical potential of the metal grid. 13. The hard drive particle cleaning system according to claim 7, wherein the upstream tubing comprises a static dissipative material. 14. The hard drive particle cleaning system according to claim 7, wherein the downstream tubing comprises an insulative material. 15. The hard drive particle cleaning system according to claim 7, further comprising a conveyor system for sequentially positioning a plurality of hard drives within the hard drive particle cleaning system to be detachably coupled to the downstream tubing and the exhaust system and to receive the mechanical shock. 16. A method for dislodging and removing particles from a hard drive, the method comprising: coupling a hard drive to a mechanical shock system;coupling an ionizer module to a first opening of the hard drive via downstream tubing;coupling an exhaust system to a second opening of the hard drive;supplying an ionized stream of air from the ionizer module into the hard drive via the downstream tubing;applying a mechanical shock to the hard drive with the mechanical shock system to dislodge particles inside the hard drive; andexhausting the ionized stream of air and dislodged particles from inside the hard drive via the exhaust system. 17. The method according to claim 16, further comprising: measuring a flow rate of a stream of air supplied to the ionizer module; andcontrolling a power source coupled to the ionizer module to ionize the stream of air based on the measured flow rate. 18. The method according to claim 16, further comprising: sampling an ionic rate of the ionized stream of air supplied to the hard drive; andcontrolling a power supplied to the ionizer module to ionize a stream of air supplied to the ionizer module based on the sampled ionic rate. 19. The method according to claim 18, wherein monitoring the ionic rate of the ionized stream of air comprises measuring an electrical potential of a metal grid arranged in the ionizer module, wherein the ionized stream of air flows through the metal grid. 20. The method according to claim 16, further comprising: sequentially securing a plurality of hard drives to the mechanical shock system; andfor each of the plurality of hard drives: coupling the ionizer module to the first opening of the hard drive via downstream tubing;coupling the exhaust system to the second opening of the hard drive;supplying an ionized stream of air from the ionizer module into the hard drive via the downstream tubing;applying a mechanical shock to the hard drive with the mechanical shock system to dislodge particles inside the hard drive; and exhausting the ionized stream of air and dislodged particles from inside the hard drive via the exhaust system.
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