Transmission oil filter comprising a melt blown layer at the downstream side

What is claimed is: 1. A transmission oil filter comprising a filtration layer of fiberglass medium having at least 90 percent by weight of fiberglass, wherein said filtration layer has a fiber diameter of 1 micrometer to 8 micrometers, a layer thickness of 0.3 mm to 1.0 mm, and a fabric weight of 40 to 110 GSM, and downstream of said filtration layer, a melt blown layer is arranged directly onto a downstream face of said fiberglass filtration layer, wherein said melt blown layer is not a filtration layer, said melt blown layer having at least 90 percent by weight polyester fibers of a diameter of 1 micrometer to 30 micrometers, a layer thickness of 0.2 mm to 0.7 mm, and a fabric weight of 20 GSM to 60 GSM, wherein the melt blown layer has a lower median fabric weight, and a lower median layer thickness than the filtration fiberglass layer, whereby the meltblown layer does not have a filtration effect relative to the filtration fiberglass layer, said melt blown layer serves only for retaining fiberglass or fiberglass medium pieces from the filtration layer in the oil filter, preventing or reducing introduction of fiberglass into a liquid to be filtered. 2. The transmission oil filter according to claim 1 , wherein said fiberglass filtration layer is a fiberglass layer without pulp fibers. 3. The transmission oil filter according to claim 2 , wherein said filtration layer of fiberglass medium has two faces and wherein a spunbond nonwoven layer is attached onto an upstream face of said fiberglass filtration layer for improved handling of said filtration layer. 4. The transmission oil filter according to claim 3 , wherein said spunbond layer has a thickness of 0.05 mm to 0.2 mm and a fabric weight of 10 grams per square meter to 50 grams per square meter. 5. The transmission oil filter according to claim 2 , wherein said fiberglass medium has a fiber diameter between 1 micrometer and 8 micrometers and a fiber length between 100 micrometer and 1,000 micrometers. 6. The transmission oil filter according to claim 2 , wherein said melt blown layer is laminated onto said filtration layer of fiberglass medium. 7. The transmission oil filter according to claim 2 , wherein said melt blown layer is directly applied by melt blowing onto said filtration layer of fiberglass medium. 8. The transmission oil filter according to claim 1 , wherein the melt blown layer has a larger median fiber diameter than the median fiber diameter of the filtration fiberglass layer, whereby the meltblown layer does not have a filtration effect relative to the filtration fiberglass layer, wherein said melt blown layer serves only for retaining fiberglass or fiberglass medium pieces from the filtration layer in the oil filter, for preventing or reducing introduction of fiberglass into the liquid to be filtered. 9. The transmission oil filter according to claim 8 , wherein the median fiber diameter of the melt blown layer is at least twice the median fiber diameter of the filtration fiberglass layer, whereby the meltblown layer does not have a filtration effect relative to the filtration fiberglass layer, wherein said melt blown layer serves only for retaining fiberglass or fiberglass medium pieces from the filtration layer in the oil filter, for preventing or reducing introduction of fiberglass into the liquid to be filtered. 10. The transmission oil filter according to claim 9 , wherein the median fiber diameter of the melt blown layer is approximately triple the median fiber diameter of the filtration fiberglass layer. 11. A transmission oil filter comprising a filtration layer of fiberglass medium having at least 90 percent by weight of fiberglass, wherein said filtration layer has a fiber diameter of 1 micrometer to 8 micrometers, a layer thickness of 0.3 mm to 1.0 mm, and a fabric weight of 40 to 110 GSM, and a spunbond nonwoven layer arranged at and attached onto an upstream face of the fiberglass filtration layer for improved handling of the filtration layer; a second spunbond nonwoven layer arranged at and attached onto a downstream face of the fiberglass filtration layer for improved handling of the filtration layer; a melt blown layer is arranged at and attached onto a downstream face of the second spunbond nonwoven layer; wherein said melt blown layer is not a filtration layer, said melt blown layer having at least 90 percent by weight polyester fibers of a diameter of 1 micrometer to 30 micrometers, a layer thickness of 0.2 mm to 0.7 mm, and a fabric weight of 20 GSM to 60 GSM, wherein the melt blown layer has a lower median fabric weight, and a lower median layer thickness than the filtration fiberglass layer, whereby the meltblown layer does not have a filtration effect relative to the filtration fiberglass layer, said melt blown layer serves only for retaining fiberglass or fiberglass medium pieces from the filtration layer in the oil filter, preventing or reducing introduction of fiberglass into a liquid to be filtered. 12. The transmission oil filter according to claim 11 , wherein said melt blown layer is laminated onto said second spunbond layer. 13. The transmission oil filter according to claim 11 , wherein said melt blown layer is directly applied by melt blowing onto said second spunbond layer. 14. The transmission oil filter according to claim 11 , wherein said spunbond nonwoven layers each have a thickness of 0.05 mm to 0.2 mm and a fabric weight of 10 grams per square meter to 50 grams per square meter. 15. The transmission oil filter according to claim 11 , wherein the melt blown layer has a larger median fiber diameter than the median fiber diameter of the filtration fiberglass layer, whereby the meltblown layer does not have a filtration effect relative to the filtration fiberglass layer, wherein said melt blown layer serves only for retaining fiberglass or fiberglass medium pieces from the filtration layer in the oil filter, for preventing or reducing introduction of fiberglass into the liquid to be filtered. 16. The transmission oil filter according to claim 15 , wherein the median fiber diameter of the melt blown layer is at least twice the median fiber diameter of the filtration fiberglass layer, whereby the meltblown layer does not have a filtration effect relative to the filtration fiberglass layer, wherein said melt blown layer serves only for retaining fiberglass or fiberglass medium pieces from the filtration layer in the oil filter, for preventing or reducing introduction of fiberglass into the liquid to be filtered. 17. The transmission oil filter according to claim 16 , wherein the median fiber diameter of the melt blown layer is approximately triple the median fiber diameter of the filtration fiberglass layer.