Integrated control apparatus and method for engine and hydraulic pump in construction machine

The invention claimed is: 1. An integrated control apparatus for an engine and a hydraulic pump in an engine system, the engine system including the engine and the hydraulic pump driven by the engine, a control valve for controlling a hydraulic oil discharged from the hydraulic pump and a hydraulic actuator operated by the hydraulic oil from the control valve, the engine and the hydraulic pump being controllable according to a predetermined output ratio in a selected mode of a plurality of power modes, the integrated control apparatus comprising: a power mode determiner configured to calculate an auto mode change index as a function of a first state value representing a work load of the hydraulic pump and a second state value representing a work speed required by an operator, in a pump control device, to determine whether a current power mode of the hydraulic pump is to be changed based on the calculated auto mode change index; a pump power determiner configured to select one of the power modes based on a result of whether the current power mode of the hydraulic pump is to be changed, in the pump control device; and an engine speed determiner configured to determine an engine speed according to the selected power mode, in the pump control device, wherein the first state value comprises a discharge pressure of the hydraulic oil discharged from the hydraulic pump, or a pump power or a pump torque of the hydraulic pump, and wherein the second state value comprises a negative control pressure or a pilot pressure corresponding to a control method in a hydraulic system. 2. The integrated control apparatus of claim 1 , wherein the power mode determiner comprises: a change index calculator configured to calculate the auto mode change index as a ratio of the first state value and the second state value; and a change index determiner configured to select one of the power modes to which the current power mode of the hydraulic pump is to be changed, based on the calculated auto mode change index. 3. The integrated control apparatus of claim 2 , wherein the power mode determiner further comprises a change standard determiner configured to determine a power mode change standard using the current power mode and the auto mode change index as an input value. 4. The integrated control apparatus of claim 1 , further comprising a pump power calculator configured to calculate a pump power of the hydraulic pump from the pump torque of the hydraulic pump and an engine speed. 5. The integrated control apparatus of claim 4 , wherein the pump torque is obtained from a discharge volume of the hydraulic pump and a discharge pressure of the hydraulic pump. 6. The integrated control apparatus of claim 5 , wherein the discharge volume is calculated using the discharge pressure, the negative control pressure and a power shift control pressure. 7. The integrated control apparatus of claim 1 , wherein when an operator selects an auto mode as a power mode, the power mode determiner is configured to determine whether the current power mode of the hydraulic pump is to be changed. 8. The integrated control apparatus of claim 1 , wherein the determination of the auto change of power mode is performed by comparing a duration time of the auto mode change index existing in the auto change boundary region with a standard time. 9. An integrated control method for an engine and a hydraulic pump, the hydraulic pump driven by the engine and discharging a hydraulic oil for operating a hydraulic actuator, comprising: providing a plurality of power modes, the engine and the hydraulic pump being controlled according to a predetermined output ratio in a selective mode of the power modes; obtaining a first state value representing a work load of the hydraulic pump and a second state value representing a work speed required by an operator, wherein the first state value comprises a discharge pressure of the hydraulic oil discharged from the hydraulic pump, or a pump power or a pump torque of the hydraulic pump, and wherein the second state value comprises a negative control pressure or a pilot pressure corresponding to a control method in a hydraulic system; calculating, using a power mode determiner and a pump power determiner, an auto mode change index as a function of the first state value and the second state value to determine whether a current power mode of the hydraulic pump is to be changed based on the calculated auto mode change index and responsively select one of the power modes; controlling the hydraulic pump according to the selected power mode; and controlling an engine speed of the engine according to the selected power mode. 10. The integrated control method of claim 9 , wherein determining whether the current power mode of the hydraulic pump is to be changed comprises: calculating the auto mode change index as a ratio of the first state value and the second state value; and determining a new power mode to which the current power mode of the hydraulic pump is to be changed based on the auto mode change index. 11. The integrated control method of claim 10 , wherein determining whether the current power mode of the hydraulic pump is to be changed further comprises determining a power mode change standard using the current power mode and the auto mode change index as an input value. 12. The integrated control method of claim 9 , further comprising calculating a pump power of the hydraulic pump from the pump torque of the hydraulic pump and an engine speed. 13. The integrated control method of claim 12 , wherein the pump torque is obtained from a discharge volume of the hydraulic pump and a discharge pressure of the hydraulic pump. 14. The integrated control method of claim 13 , wherein the discharge volume is calculated using the discharge pressure, the negative control pressure and a power shift control pressure. 15. The integrated control method of claim 9 , wherein when an operator selects an auto mode as a power mode, determining whether the current power mode of the hydraulic pump is to be changed is performed. 16. The integrated control method of claim 9 , wherein determining whether the current power mode of the hydraulic pump is to be changed comprises comparing a duration time of the auto mode change index existing in the auto change boundary region with a standard time. 17. An integrated control apparatus for an engine and a hydraulic pump in an engine system, the engine system including the engine and the hydraulic pump driven by the engine, a control valve for controlling a hydraulic oil discharged from the hydraulic pump and a hydraulic actuator operated by the hydraulic oil from the control valve, the engine and the hydraulic pump being controllable according to a predetermined output ratio in a selected mode of a plurality of power modes, the integrated control apparatus comprising: a pump control device configured to calculate an auto mode change index as a function of a first state value representing a work load of the hydraulic pump and a second state value representing a work speed required by an operator to determine whether a current power mode of the hydraulic pump is to be changed based on the calculated auto mode change index and responsively select one of the power modes, and operatively connected to the hydraulic pump for controlling the hydraulic pump according to the selected power mode; and an engine control unit operatively connected to the pump control device for controlling an engine speed of the engine according to the selected power mode, wherein the first state value comprises a