Device for treating exhaust gas from engine and method for manufacturing said device

The invention claimed is: 1. A device for treating exhaust gas from an engine, the device comprising a porous filter provided in an exhaust gas passage of the engine and collecting particulate matter in exhaust gas, a catalytic converter provided on an upstream side of the filter in the exhaust gas passage and purifying the exhaust gas, the exhaust gas passing through pores of the filter from surfaces of the filter and being discharged, a catalyst for purifying the exhaust gas being supported on the surfaces of the filter and inner surfaces of the pores, the catalyst being supported on the surfaces of the filter more thickly than on the inner surfaces of the pores, the catalytic converter including a catalyst which exhibits activity in oxidation reaction of unsaturated hydrocarbons whose number of carbon atoms is 6 to 9, the catalyst of the filter exhibiting activity in oxidation reaction of saturated hydrocarbons whose number of carbon atoms is 5 or smaller, the catalyst of the catalytic converter producing the saturated hydrocarbons by cracking of the unsaturated hydrocarbons, and the catalyst of the filter purifying the saturated hydrocarbons. 2. The device for treating exhaust gas from an engine of claim 1 , wherein an amount of the supported catalyst per unit area of the surfaces of the filter is 50 times or more and 500 times or less as much as an amount of the supported catalyst per unit area of the inner surfaces of the pores. 3. A method for manufacturing the device for treating exhaust gas from an engine according to claim 1 , the method comprising: a first step of immersing the porous filter in a first catalyst slurry in which the catalyst for purifying the exhaust gas is dispersed, and of supporting the catalyst on inner surfaces of the pores of the porous filter, the porous filter having the pores through which the exhaust gas from the engine passes; a second step of immersing the porous filter having undergone the first step in a second catalyst slurry in which the catalyst is dispersed and of supporting the catalyst on surfaces of the porous filter in a thickness greater than a thickness of the catalyst supported on the inner surfaces of the pores of the porous filter; and a third step of providing the porous filter having undergone the second step in an exhaust gas passage of the engine. 4. The method for manufacturing a device for treating exhaust gas from an engine of claim 3 , the method further comprising: a step of drying the catalyst supported on the inner surfaces of the pores of the porous filter between the first step and the second step, and a step of calcining the catalyst supported on the surfaces of the porous filter and the catalyst supported on the inner surfaces of the pores between the second step and the third step. 5. The method for manufacturing a device for treating exhaust gas from an engine of claim 3 , wherein components of the catalyst of the first catalyst slurry and components of the catalyst of the second catalyst slurry are same as each other. 6. The method for manufacturing a device for treating exhaust gas from an engine of claim 5 , the method further comprising: a step of drying the catalyst supported on the inner surfaces of the pores of the porous filter between the first step and the second step, and a step of calcining the catalyst supported on the surfaces of the porous filter and the catalyst supported on the inner surfaces of the pores between the second step and the third step. 7. A device for treating exhaust gas from an engine, the device comprising a catalytic converter provided in an exhaust gas passage of an engine; and a filter device provided on a downstream side of the catalytic converter in the exhaust gas passage, the catalytic converter includes a catalyst on a front stage that includes a first catalyst which exhibits activity in oxidation reaction of unsaturated hydrocarbons whose number of carbon atoms is 6 to 9, a catalyst on a rear stage that is provided on a downstream side of the catalyst on the front stage and includes a second catalyst which exhibits activity in oxidation reaction of saturated hydrocarbons whose number of carbon atoms is 5 or smaller, and a catalyst container housing the catalyst on the front stage and the catalyst on the rear stage together, the filter device including a filter porous and collecting particulate matter in exhaust gas and a filter container housing the porous filter, the exhaust gas passing through pores of the filter from surfaces of the filter and being discharged, the catalytic converter being connected to an exhaust manifold of the engine via a connecting pipe, the filter device being directly connected to the catalytic converter, a catalyst being supported on the surfaces of the filter and inner surfaces of the pores exhibiting activity in oxidation reaction of saturated hydrocarbons whose number of carbon atoms is 5 or smaller, the catalyst of the filter device being supported on the surfaces of the filter more thickly than on the inner surfaces of the pores, the first catalyst of the catalytic converter producing the saturated hydrocarbons by cracking of the unsaturated hydrocarbons, and the second catalyst of the catalytic converter and the catalyst of the filter purifying the saturated hydrocarbons.