Filter medium for air filter, filter pack, air filter unit, and method for producing filter medium for air filter

What is claimed is: 1. A filter medium for an air filter to collect dust in an air current, comprising: a first porous film mainly containing a fluororesin; a second porous film mainly containing a fluororesin, and arranged to a downstream side of the first porous film in the air current; and a pre-collection member arranged to collect a portion of the dust in the air current, the pre-collection member being arranged to an upstream side of the first porous film in the air current, the pre-collection member having a pressure drop when air is passed therethrough at a flow rate of 5.3 cm/s of 15 Pa or greater and less than 55 Pa, the pre-collection member having a collection efficiency of NaCl particles having a particle diameter of 0.3 μm when air containing the particles is passed therethrough at a flow rate of 5.3 cm/s of 25% or greater and less than 80%, the pre-collection member having a thickness of 0.4 mm or less, the pre-collection member alone having a PF value of 7 or greater and 15 or less, the PF value being determined from the following formula: PF value={−log((100−collection efficiency (%))/100)}/(pressure drop (Pa)/1000), a ratio of the PF value of the pre-collection member alone to a PF value of the porous films including the first porous film and the second porous film overlapped with each other is 0.20 or greater and 0.45 or less, and in the filter medium for an air filter, the pressure drop when air passes through at a flow rate of 5.3 cm/s is less than 200 Pa, and the collection efficiency of NaCl particles having a particle diameter of 0.3 μm when the air containing the particles passes through at a flow rate of 5.3 cm/s is 99.97% or greater. 2. The filter medium for an air filter according to claim 1 , wherein, when air containing polyalphaolefin particles having a count median particle diameter of 0.25 μm continuously passes through at a flow rate of 5.3 cm/s, and the pressure drop is increased by 250 Pa, a dust holding capacity of the polyalphaolefin particles is 40 g/m 2 or greater. 3. The filter medium for an air filter according to claim 1 , further comprising an upstream air-permeable support member arranged to support the first porous film, the upstream air-permeable support member being arranged further to the upstream side in the air current than the first porous film. 4. The filter medium for an air filter claim 1 , further comprising a downstream air-permeable support member arranged to support the second porous film, the downstream air-permeable support member being arranged to the downstream side of the second porous film in the air current. 5. The filter medium for an air filter claim 1 , wherein the pressure drop is smaller through the first porous film than through the second porous film when air passes therethrough at a flow rate of 5.3 cm/s, and the collection efficiency of NaCl particles having a particle diameter of 0.3 μm is higher in the second porous film than in the first porous film when air containing the particles is passed therethrough at a flow rate of 5.3 cm/s. 6. The filter medium for an air filter according to claim 1 , wherein in the first porous film, the pressure drop is 30 Pa or greater and 90 Pa or less, the collection efficiency is 95% or greater and 99% or less, and when air containing polyalphaolefin particles having a count median particle diameter of 0.25 μm continuously passes through at a flow rate of 5.3 cm/s, and the pressure drop is increased by 250 Pa, the dust holding capacity of the polyalphaolefin particles is 25 g/m 2 or greater and 35 g/m 2 or less. 7. The filter medium for an air filter according to claim 1 , wherein the ratio of the PF value of the pre-collection member alone to the PF value of the porous films including the first porous film and the second porous film overlapped with each other is 0.20 or greater and 0.38 or less. 8. The filter medium for an air filter according to claim 1 , wherein the first porous film and the second porous film mainly include fibril-forming polytetrafluoroethylene, a non-fibril-forming non-melting-processable component, and a non-fibril-forming hot-melt-processable component having a melting point below 320° C. 9. A method for producing a filter medium for an air filter to collect dust in an air current, comprising: obtaining a first porous film and a second porous film mainly containing a fluororesin; arranging the first porous film to an upstream side of the second porous film in the air current; arranging a pre-collection member to collect a portion of the dust in the air current to the upstream side of the first porous film in the air current; and integrating the first porous film, the second porous film, and the pre-collection member by heat lamination, the pre-collection member having a pressure drop when air is passed therethrough at a flow rate of 5.3 cm/s of 15 Pa or greater and less than 55 Pa, the pre-collection member having a collection efficiency of NaCl particles having a particle diameter of 0.3 μm when air containing the particles is passed therethrough at a flow rate of 5.3 cm/s of 25% or greater and less than 80%, the pre-collection member having a thickness of 0.4 mm or less, the pre-collection member alone having a PF value of 7 or greater and 15 or less, the PF value being determined from the following formula: PF value={−log((100−collection efficiency (%))/100)}/(pressure drop (Pa)/1000), and a ratio of the PF value of the pre-collection member alone to a PF value of the porous films including the first porous film and the second porous film overlapped with each other is 0.20 or greater and 0.45 or less. 10. The method for producing a filter medium for an air filter according to claim 9 , further comprising: arranging an upstream air-permeable support member to support the first porous film to the upstream side of the first porous film in the air current. 11. The method for producing a filter medium for an air filter according to claim 9 , further comprising arranging a downstream air-permeable support member to support the second porous film to the downstream side of the second porous film in the air current.