Exhaust gas post-processing apparatus and control method thereof

The invention claimed is: 1. An exhaust gas post-processing apparatus for an engine of construction equipment, which removes nitrogen oxide (NOx) by supplying urea in an aqueous solution to an exhaust gas line, the exhaust gas post-processing apparatus comprising: an exhaust pipe which is configured to connect with an exhaust manifold of the engine so as to discharge exhaust gas discharged from the engine; a diesel oxidation catalyst which is in the exhaust pipe and configured to purify the exhaust gas; a selective catalytic reduction which is downstream of the diesel oxidation catalyst, and configured to perform a catalytic reduction reaction so as to reduce nitrogen oxide (NOx) by supplying urea in an aqueous solution form to the exhaust gas, in the exhaust pipe, that has passed through the diesel oxidation catalyst; a first bypass pipe which branches off from the exhaust pipe between the engine and the diesel oxidation catalyst so as to bypass the entirety or a part of the exhaust gas to upstream of the selective catalytic reduction; and a first switch which is at a point where the first bypass pipe branches off from the exhaust pipe, and when a temperature of the exhaust gas is lower than a first predetermined temperature, a temperature of the selective catalytic reduction is lower than a second predetermined temperature, or a temperature inside the engine is lower than a third predetermined temperature, the first switch is configured to adjust an amount of exhaust gas that is bypassed to the first bypass pipe, wherein the first switch is opened so that the exhaust gas is bypassed from the exhaust pipe when the temperature of the exhaust gas or the selective catalytic reduction is within a predetermined first temperature region, wherein the first switch is closed when temperature of the exhaust gas or the selective catalytic reduction reaches a predetermined second temperature region, and wherein the second temperature region is higher than the first temperature region. 2. The exhaust gas post-processing apparatus of claim 1 , further comprising: a diesel particulate filter, which is between the diesel oxidation catalyst and the selective catalytic reduction in the exhaust pipe, and is configured to secondarily purify the exhaust gas passing through the diesel oxidation catalyst, wherein the first bypass pipe rejoins the exhaust pipe between the diesel particulate filter and the selective catalytic reduction. 3. The exhaust gas post-processing apparatus of claim 2 , further comprising: a second bypass pipe, which branches off from the first bypass pipe and is configured to bypass the entirety or a part of the exhaust gas that flows into the first bypass pipe to upstream of the diesel particulate filter; and a second switch, which is at a point where the second bypass pipe branches off from the first bypass pipe and is configured to control an amount of exhaust gas that is bypassed to the second bypass pipe. 4. The exhaust gas post-processing apparatus of claim 1 , wherein the exhaust pipe is divided into a first divided exhaust pipe and a second divided exhaust pipe downstream of the selective catalytic reduction, and wherein the apparatus further comprises: a third switch, which is configured to adjust an amount of exhaust gas that flows into the first divided exhaust pipe and the second divided exhaust pipe, and is downstream of the selective catalytic reduction; a first ammonia oxidation catalyst, which is in the first divided exhaust pipe; and a second ammonia oxidation catalyst having a capacity different from a capacity of the first ammonia oxidation catalyst, which is in the second divided exhaust pipe. 5. A control method of an exhaust gas post-processing apparatus for construction equipment that includes an exhaust pipe which is configured to discharge exhaust gas discharged from an engine of the construction equipment, a diesel oxidation catalyst which is installed in the exhaust pipe and configured to purify exhaust gas, a selective catalytic reduction that is downstream of the diesel oxidation catalyst and configured to perform a catalytic reduction reaction in order to reduce nitrogen oxide in exhaust gas by supplying urea in an aqueous solution form to the exhaust gas passed through the diesel oxidation catalyst, a first bypass pipe which branches off from the exhaust pipe upstream of the diesel oxidation catalyst and rejoins the exhaust pipe upstream of the selective catalytic reduction, and a first switch configured to adjust an amount of exhaust gas that is bypassed to the first bypass pipe, the control method comprising: a step of identifying a temperature of the exhaust gas, a temperature of the selective catalytic reduction, or a temperature inside the engine; and a step of bypassing the entirety or part of the exhaust gas into the first bypass pipe, when a temperature of the exhaust gas is lower than a first predetermined temperature, a temperature of the selective catalytic reduction is lower than a second predetermined temperature, or a temperature inside the engine is lower than a third predetermined temperature, wherein the first switch is opened so that the exhaust gas is bypassed from the exhaust pipe when the temperature of the exhaust gas or the selective catalytic reduction is within a predetermined first temperature region, wherein the first switch is closed when temperature of the exhaust gas or the selective catalytic reduction reaches a predetermined second temperature region, and wherein the second temperature region is higher than the first temperature region. 6. The control method of claim 5 , wherein the first switch begins to be gradually closed when temperature of the exhaust gas or the selective catalytic reduction is higher than the predetermined first temperature region and lower than the predetermined second temperature region. 7. The control method of claim 5 , wherein when the engine starts, the first switch is opened for a predetermined time so that the exhaust gas bypasses the diesel oxidation catalyst. 8. The exhaust gas post-processing apparatus of claim 3 , further comprising: a small diesel particulate filter which is between the second switch and a point where the first bypass pipe rejoins the exhaust pipe in the first bypass pipe, and is configured to purify exhaust gas flows into the selective catalytic reduction through the first bypass pipe. 9. The control method of claim 5 , further comprising a step of performing a catalytic reduction reaction in order to reduce nitrogen oxide in the exhaust gas by supplying urea in an aqueous solution form to the exhaust gas passed through the diesel oxidation catalyst, wherein an injection amount of urea of the catalytic reduction reaction is increased when the first switch is opened. 10. The control method of claim 5 , wherein the first temperature region is substantially equal to or lower than 90° C., and the second temperature region is substantially equal to or higher than 190° C. 11. The control method of claim 5 , wherein the exhaust gas post-processing apparatus further comprises: a diesel particulate filter which is between the diesel oxidation catalyst and the selective catalytic reduction in the exhaust pipe, and is configured to secondarily purify exhaust gas passing through the diesel oxidation catalyst; a second bypass pipe which branches off from the first bypass pipe and rejoins the exhaust pipe upstream of the diesel particulate filter; and a second switch which is at a point where the second bypass pipe branches off from the first bypass pipe, and is configured to control an amount of exhaust gas that is bypassed to the second bypass pipe. 12