Reducing agent aqueous solution mixing device and exhaust gas post-treatment device

The invention claimed is: 1. A reducing agent aqueous solution mixing device for adding a reducing agent aqueous solution to an exhaust gas, the reducing agent aqueous solution mixing device being adapted to be disposed between a filter for trapping particulate substance in the exhaust gas and a reducing catalyst unit for reducing and purifying nitrogen oxide in the exhaust gas, the reducing agent aqueous solution mixing device comprising: an exhaust pipe including an elbow part having a curved portion, and a linear part disposed on an exhaust downstream side of the elbow part; an injector disposed outside the curved portion of the elbow part, the injector being configured to inject only the reducing agent aqueous solution in an air unmixed state into the elbow part towards the linear part; an inner pipe disposed on an exhaust downstream side of the injector with an exhaust upstream side inlet portion opening of the inner pipe facing the injector and an outer peripheral surface of the inner pipe being spaced apart from an inner wall of the exhaust pipe in the linear part, the inner pipe being configured to allow the exhaust gas to flow through an inside thereof and along at least a majority of an outer periphery thereof in an exhaust flow direction; and a tubular guide member provided in the elbow part as a separate member from the inner pipe and configured to direct the reducing agent aqueous solution injected from the injector to the inner pipe, the tubular guide member being arranged spaced apart from the exhaust upstream side of the exhaust upstream side inlet portion opening of the inner pipe such that a path exists between the tubular guide and the inner pipe for exhaust gas to flow into the exhaust upstream side inlet portion opening of the inner pipe without passing through the tubular guide. 2. The reducing agent aqueous solution mixing device recited in claim 1 , wherein the guide member is a mixing pipe arranged to enclose a surrounding of the reducing agent aqueous solution injected from the injector, the mixing pipe having a plurality of openings on an outer peripheral surface thereof. 3. The reducing agent aqueous solution mixing device recited in claim 2 , wherein an exhaust downstream side outlet portion of the mixing pipe is spaced apart from the inner wall of the exhaust pipe, and a flow section is formed between the outlet portion of the mixing pipe and the inner wall of the exhaust pipe in order to direct the exhaust gas from an outer periphery of the mixing pipe to the inner pipe. 4. The reducing agent aqueous solution mixing device recited in claim 3 , wherein the mixing pipe is supported at an end portion thereof disposed oppositely to the outlet portion by an elbow part wall facing the linear part. 5. The reducing agent aqueous solution mixing device recited in claim 2 , wherein the openings of the mixing pipe are formed only in a partial angular range of the mixing pipe in a circumferential direction. 6. The reducing agent aqueous solution mixing device recited in claim 5 , wherein the openings of the mixing pipe are formed either only in first and third regions or in second and fourth regions where an outer circumference of the mixing pipe is equally divided in four sequentially aligned regions consisting of the first region, the second region, the third region and the fourth region at 90-degree intervals in the circumferential direction. 7. The reducing agent aqueous solution mixing device recited in claim 2 , wherein an inlet portion of the inner pipe has an inner diameter greater than an inner diameter of the outlet portion of the mixing pipe. 8. The reducing agent aqueous solution mixing device recited in claim 7 , wherein the mixing pipe and the inner pipe are disposed so that an outlet portion opening of the mixing pipe and the inlet portion opening of the inner pipe encompass an injection angular range of the injector. 9. The reducing agent aqueous solution mixing device recited claim 2 , wherein the mixing pipe and the inner pipe are coaxially disposed. 10. The reducing agent aqueous solution mixing device recited in claim 1 , further comprising: a support member including support portions supporting a plurality of circumferential portions of an outer peripheral part of the inner pipe with respect to the exhaust pipe at a single position in a direction along an exhaust stream so that the exhaust gas flows through regions between the support member and an outer peripheral surface of the inner pipe except for regions where the support portions are provided, wherein the inner pipe has no opening formed on the outer peripheral surface thereof. 11. The reducing agent aqueous solution mixing device recited in claim 1 , further comprising: a support member supporting an outlet portion of the inner pipe with respect to the exhaust pipe, the support member being configured to restrict a flow of the exhaust gas in a region between the outer peripheral surface of the inner pipe and the inner wall of the exhaust pipe, wherein the outlet portion of the inner pipe has a plurality of openings formed on an outer peripheral surface thereof. 12. An exhaust gas post-treatment device comprising: a filter configured to trap particulate substance in an exhaust gas; and the reducing agent aqueous solution mixing device recited in claim 1 disposed parallel to the filter on an exhaust downstream side of the filter, the reducing catalyst unit being disposed on the exhaust downstream side of the reducing agent aqueous solution mixing device, the reducing catalyst unit being configured to reduce and purify nitrogen oxide in the exhaust gas. 13. The exhaust gas post-treatment device recited in claim 12 , wherein the reducing catalyst unit is disposed parallel to the reducing agent aqueous solution mixing device. 14. The exhaust gas post-treatment device recited in claim 12 , wherein the exhaust pipe of the reducing agent aqueous solution mixing device has a cylindrical shape, with an exhaust upstream side end of the exhaust pipe being connected to the filter and an exhaust downstream side end of the exhaust pipe being connected to the reducing catalyst unit. 15. The reducing agent aqueous solution mixing device recited in claim 1 , wherein the linear part of the exhaust pipe and the inner pipe are cylindrical in shape and arranged coaxially with respect to one another. 16. The reducing agent aqueous solution mixing device recited in claim 15 , further comprising: a flange that supports the inner pipe inside the exhaust pipe, the flange being configured and arranged to surround a portion of the outer periphery of the inner pipe, the flange including at least one aperture arranged between the outer periphery of the inner pipe and an inner periphery of the exhaust pipe. 17. The reducing agent aqueous solution mixing device recited in claim 1 , wherein a predetermined interval exists between an outlet portion of the guide member and the inlet portion of the inner pipe along an axial direction of the linear part. 18. A reducing agent aqueous solution mixing device for adding a reducing agent aqueous solution to an exhaust gas, the reducing agent aqueous solution mixing device being adapted to be disposed between a filter for trapping particulate substance in the exhaust gas and a reducing catalyst unit for reducing and purifying nitrogen oxide in the exhaust gas, the reducing agent aqueous solution mixing device comprising: an exhaust pipe including an elbow part having a curved portion, and a linear part disposed on