Dust collector and dust removal method for same

What is claimed is: 1. A dust collector comprising a dust removal mechanism for removing dust adhered around an outside surface of a cylindrical filter, wherein the cylindrical filter has an opened first end and a second end, and a linear internal air passage connecting the opened first end and the second end, the dust removal mechanism comprising: a first discharge section having a first discharge nozzle positioned outside of the cylindrical filter and oriented to inject a first stream of pulse jet air inside of the cylindrical filter through the opened first end of the cylindrical filter; a second discharge section having a second discharge nozzle positioned inside the cylindrical filter and oriented to blow a second stream of pulse jet air from a second end side of the cylindrical filter toward the opened first end of the cylindrical filter so that the first stream of pulse jet air from the first discharge nozzle and the second stream of pulse jet air from the second discharge nozzle collide with each other inside the cylindrical filter to create a mass of compressed air inside the cylindrical filter to blow dust uniformly off the outer surface of the cylindrical filter along an entire length of the cylindrical filter, and a pipe line provided to supply the second stream of pulse jet air to the second discharge nozzle, wherein the internal air passage of the cylindrical filter is configured to guide the first and second streams of pulse jet air straight along a length of the cylindrical filter across a cross-section of the internal air passage until they collide with each other. 2. The dust collector according to claim 1 , wherein the pipe line has a turnaround section, and the second discharge nozzle is provided at an end of the turnaround section. 3. The dust collector according to claim 2 , wherein the turnaround section has a substantially U-shape. 4. The dust collector according to claim 1 , wherein the pipe line is disposed inside of the cylindrical filter. 5. The dust collector according to claim 2 , wherein the pipe line is disposed outside the cylindrical filter and the turnaround section is extensive into inside of the cylindrical filter and attached to the second discharge nozzle. 6. The dust collector according to claim 1 , wherein the second discharge nozzle has a tapered-off shape. 7. The dust collector according to claim 1 , wherein the second discharge nozzle has an expanded shape. 8. The dust collector according to claim 2 , wherein the turnaround section is branched into a plurality of portions, and the second discharge nozzle is provided for each of the plurality of portions. 9. The dust collector according to claim 1 , wherein the second discharge section is formed integrally with the cylindrical filter, and detachable, along with the cylindrical filter, from the dust collector. 10. The dust collector according to claim 1 , comprising: a cell plate configured to separate a dust chamber from a cleaned air chamber; and a filter frame configured to mount the cylindrical filter on the cell plate, wherein the filter frame has a projection formed in alignment with a hole formed in the opened first end of the cylindrical filter, and the cylindrical filter is detachably mounted on the dust collector with the projection engaged in the hole. 11. A dust removal method implemented with the dust collector according to claim 1 , the dust removal method comprising: discharging the first stream of pulse jet air from the first discharge section and the second stream of pulse jet air from the second discharge section at time intervals running out of synchronous between the first and second streams of pulse jet air to remove dust off the outside surface of the cylindrical filter. 12. The dust removal method according to claim 11 , wherein discharging the first and second streams of pulse jet air at time intervals running out of synchronous between the first and second streams of pulse jet air comprises changing the time intervals over time.