Vehicular integrated braking system

What is claimed is: 1. A vehicular integrated brake system comprising: an electric brake system (EBS) system configured to generate a braking force of a main brake by causing compressed air delivered from an air tank to be introduced into or discharged from a main brake chamber by selectively actuating a plurality of EBS valves in response to an operation signal of a brake pedal; an electric parking brake (EPB) valve configured to receive the compressed air delivered from the air tank and to pass or block the compressed air by being selectively actuated in response to an operation signal of a parking brake; a parking brake chamber configured to generate a braking force of the parking brake when the compressed air is introduced into or discharged therefrom through the EPB valve; an exhaust port configured to exhaust the compressed air discharged from the main brake chamber and the compressed air discharged from the parking brake chamber; a check valve provided on an air line, in which the plurality of EBS valves, the EPB valve, and the exhaust port meet each other, and the check valve configured to allow only a flow of the compressed air discharged from the plurality of EBS valves to the exhaust port and a flow of the compressed air discharged from the EPB valve to the exhaust port; and a controller configured to receive the operation signal of the brake pedal and the operation signal of the parking brake so as to control turning-ON/OFF of the plurality of EBS valves and the EPB valve. 2. The vehicular integrated brake system of claim 1 , wherein the plurality of EBS valves include: a first EBS valve connected to the air tank and configured to be turned ON/OFF; a second EBS valve connected to the first EBS valve and the check valve and configured to be turned ON/OFF; and a relay valve connected to the air tank, the first EBS valve, the second EBS valve, the main brake chamber, and the check valve and configured to be actuated by turning-ON of the first EBS valve, wherein the EPB valve is connected to the air tank, the parking brake chamber, and the check valve, and wherein the check valve is connected to the relay valve, the EPB valve, the second EBS valve, and the exhaust port. 3. The vehicular integrated brake system of claim 2 , wherein the first EBS valve is a two-port, two-position solenoid valve having a first port connected to the air tank and a second port connected to the relay valve, wherein the second EBS valve is a two-port, two-position solenoid valve having a first port connected to the relay valve and a second port connected to the check valve, wherein the relay valve has a first port connected to the air tank, a second port connected to the second port of the first EBS valve and the first port of the second EBS valve, a third port connected to an input/output port of the main brake chamber, and a fourth port connected to the check valve, wherein the EPB valve is a three-port, two-position solenoid valve having a first port connected to the air tank, a second port connected to an input/output port of the parking brake chamber, and a third port connected to the check valve, and wherein the check valve has a first input port connected to the second port of the second EBS valve, a second input port connected to the fourth port of the relay valve, a third input port connected to the third port of the EPB valve, and an output port connected to the exhaust port. 4. The vehicular integrated brake system of claim 3 , further comprising: a main air supply line connected at one end thereof to the air tank, branched in a middle portion thereof, and connected at a remaining end thereof to each of the first port of the first EBS valve, the first port of the relay valve, and the first port of the EPB valve; a first EBS air line connected at one end thereof to the second port of the first EBS valve, branched in a middle portion thereof, and connected at a remaining end thereof to each of the first port of the second EBS valve and the second port of the relay valve; a second EBS air line connected at one end thereof to the third port of the relay valve and connected at a remaining end thereof to the input/output port of the main brake chamber; a third EBS air line connected at one end thereof to the second port of the second EBS valve and connected at a remaining end thereof to the first input port of the check valve; a first EPB air line connected at one end thereof to the second port of the EPB valve and connected at a remaining end thereof to the input/output port of the parking brake chamber; a second EPB air line connected at one end thereof to the third port of the EPB valve and connected at a remaining end thereof to the second input port of the check valve; and an exhaust air line connected at one end thereof to the output port of the check valve and connected at a remaining end thereof to the exhaust port. 5. The vehicular integrated brake system of claim 2 , further comprising: a back-up EBS valve connected between a brake cylinder connected to the brake pedal and the relay valve so as to be turned ON/OFF. 6. The vehicular integrated brake system of claim 3 , further comprising: a pressure sensor connected to the third port of the relay valve. 7. A vehicular integrated brake system comprising: an electric brake system (EBS) system configured to generate a braking force of a main brake by causing compressed air delivered from an air tank to be introduced into or discharged from a main brake chamber by selectively actuating a plurality of EBS valves in response to an operation signal of a brake pedal; an electric parking brake (EPB) valve configured to receive the compressed air delivered from the air tank and to pass or block the compressed air by being selectively actuated in response to an operation signal of a parking brake; a parking brake chamber configured to generate a braking force of the parking brake when the compressed air is introduced into or discharged therefrom through the EPB valve; an exhaust port configured to exhaust the compressed air discharged from the main brake chamber and the compressed air discharged from the parking brake chamber; and a check valve provided on an air line, in which the plurality of EBS valves, the EPB valve, and the exhaust port meet each other, and the check valve configured to allow only a flow of the compressed air discharged from the plurality of EBS valves to the exhaust port and a flow of the compressed air discharged from the EPB valve to the exhaust port, wherein the plurality of EBS valves include a first EBS valve connected to the air tank and configured to be turned ON/OFF, a second EBS valve connected to the first EBS valve and the check valve and configured to be turned ON/OFF, and a relay valve connected to the air tank, the first EBS valve, the second EBS valve, the main brake chamber, and the check valve and configured to be actuated by turning-ON of the first EBS valve, wherein the EPB valve is connected to the air tank, the parking brake chamber, and the check valve, and wherein the check valve is connected to the relay valve, the EPB valve, the second EBS valve, and the exhaust port. 8. The vehicular integrated brake system of claim 7 , wherein the first EBS valve is a two-port, two-position solenoid valve having a first port connected to the air tank and a second port connected to the relay valve, wherein the second EBS valve is a two-port, two-position solenoid valve having a first port connected to the relay valve and a second port connected to the check valve, wherein the relay valve has a first port connected to the air tank, a second port connected to the second port of the first EBS valve and the first port of the second EBS valve, a th