Airborne component extractor with baffled debris collection

The invention claimed is: 1. An extractor system comprising: a blower disposed in a base unit and configured to produce a negative pressure gas stream; a first local blower to provide a positive pressure gas stream towards a first work area; a second local blower to provide a second positive pressure gas stream towards a second work area; a negative pressure conduit configured to convey the negative pressure gas stream from the first work area and the second work area; an airflow adjustment configured to adjust a flow rate of airflow into or from the blower; a filter disposed in a filter region of the base unit to filter debris from the negative pressure gas stream; a bottom region of the filter region configured to collect the debris; and a baffle located outside airflow pathways of both the positive pressure gas stream and the negative pressure gas stream, the baffle disposed between the filter and the bottom region and having openings configured to separate the debris released from the filter from a vicinity of the filter and to collect the debris in the bottom region to reduce re-uptake of the debris released from the filter when the blower draws air from the filter region to produce the positive pressure gas stream. 2. The system of claim 1 , comprising a filter cleaner configured to release the debris from the filter. 3. The system of claim 2 , wherein the filter cleaner comprises a jet that directs air or a gas against a side of the filter opposite a side on which the debris is connected. 4. The system of claim 1 , wherein the baffle comprises a plate mounted proximate the bottom region of the filter region. 5. The system of claim 4 , wherein the baffle comprises a plurality of openings through which the debris may pass into the bottom region. 6. The system of claim 5 , wherein the openings comprise elongated openings formed by bending the plate. 7. The system of claim 5 , comprising an access into the bottom region for removing the debris from the bottom region. 8. The system of claim 1 , wherein the filter comprises a cylindrical element and wherein the blower draws through a central portion of the cylindrical element. 9. An extractor system comprising: a base unit having a blower configured to produce a gas stream to draw airborne components from a work area, a filter disposed in a filter region of the base unit to filter debris from the gas stream, a bottom region of the filter region configured to collect the debris, a suction air adjustment configured to adjust a flow rate of the gas stream into the blower via the filter; a local blower disposed proximate the work area, wherein the local blower is configured to create a positive pressure gas stream towards the work area, and the local blower is disposed upstream of a return adjustment; and a baffle located outside airflow pathways of the gas stream including both the positive pressure gas stream and a negative pressure gas stream, the baffle disposed between the filter and the bottom region and having openings configured to separate the debris released from the filter from a vicinity of the filter and to collect the debris in the bottom region to reduce re-uptake of debris released from the filter when the blower draws air from the filter region to produce a positive pressure gas stream. 10. The system of claim 9 , comprising a filter cleaner configured to release the debris from the filter. 11. The system of claim 10 , wherein the filter cleaner comprises a jet that directs air or a gas against a side of the filter opposite a side on which the debris is connected. 12. The system of claim 9 , wherein the baffle comprises a plate mounted proximate the bottom region of the filter region. 13. The system of claim 12 , wherein the baffle comprises a plurality of openings through which the debris may pass into the bottom region. 14. The system of claim 13 , wherein the openings comprise elongated openings formed by bending the plate. 15. The system of claim 13 , comprising an access into the bottom region for removing the debris from the bottom region. 16. The system of claim 9 , wherein the filter comprises a cylindrical element and wherein the blower draws through a central portion of the cylindrical element. 17. An extractor system comprising: a local blower disposed along a positive pressure conduit configured to convey a positive pressure gas stream towards a work area; a negative pressure conduit configured to convey a negative pressure gas stream from the work area; a hood coupled to receive the positive pressure gas stream and draw airborne components from the work area into the negative pressure gas stream; a filter disposed in a filter region to filter debris from the negative pressure gas stream; a return air adjustment configured to adjust a flow rate of the positive pressure gas stream into the hood from the blower, wherein the local blower is disposed upstream of the return air adjustment and the hood; a bottom region of the filter region configured to collect the debris; and a baffle located outside airflow pathways of both the positive pressure gas stream and the negative pressure gas stream, the baffle disposed between the filter and the bottom region and having openings configured to separate the debris released from the filter from a vicinity of the filter and to collect the debris in the bottom region to reduce re-uptake of debris released from the filter when air is drawn from the filter region for the positive pressure gas stream. 18. The system of claim 17 , wherein the baffle comprises a plate mounted proximate the bottom region of the filter region and comprising a plurality of openings through which the debris may pass into the bottom region.