Alkaline water electrolysis system

What is claimed is: 1. An alkaline water electrolysis system comprising: a plurality of reaction chambers each including a main electrode and an auxiliary electrode; a piston provided in each reaction chamber to change a volume of the reaction chamber through reciprocating motion; a drive motor; a connecting rod and a crankshaft installed to change rotational motion of the drive motor into reciprocating linear motion of the piston; a plurality of gas valves installed on an upper side of the reaction chamber to discharge hydrogen and oxygen generated in the reaction chamber through different paths, respectively; a pressure sensor installed in the reaction chamber; a controller configured to open and close the gas valves in response to a signal received from the pressure sensor; and an electrolyte supply apparatus provided to supply an electrolyte to the reaction chambers. 2. The alkaline water electrolysis system of claim 1 , wherein the plurality of reaction chambers comprises an even number of reaction chambers in which two reaction chambers are interlocking chambers, wherein one main electrode of the two reaction chambers is connected to a positive electrode and another main electrode of the two reaction chambers is connected to a negative electrode of a power source device, respectively, and wherein the pistons of the interlocking chambers are installed to be linearly reciprocated in a same phase by the crankshaft. 3. The alkaline water electrolysis system of claim 2 , wherein auxiliary electrodes of the interlocking chambers are electrically connected to each other. 4. The alkaline water electrolysis system of claim 3 , wherein the electrolyte supply apparatus comprises: an electrolyte reservoir configured to store the electrolyte; and an electrolyte valve provided to switch a state of supply of the electrolyte supplied from the electrolyte reservoir to each of the reaction chambers. 5. The alkaline water electrolysis system of claim 4 , wherein the gas valve comprises a hydrogen valve configured to discharge hydrogen and an oxygen valve configured to discharge oxygen, and wherein the controller is configured to selectively open the hydrogen valve and the oxygen valve depending on whether the gas generated in the reaction chamber is hydrogen or oxygen when the pressure measured by the pressure sensor is equal to or higher than a predetermined reference pressure. 6. The alkaline water electrolysis system of claim 5 , further comprising: a hydrogen gas-liquid separator configured to separate the electrolyte from a fluid discharged through the hydrogen valve and to recover the separated electrolyte to the electrolyte reservoir; and an oxygen-gas/liquid separator configured to separate the electrolyte from a fluid discharged through the oxygen valve and to recover the separated electrolyte to the electrolyte reservoir. 7. The alkaline water electrolysis system of claim 3 , wherein the power source device is configured to alternately change a polarity of the main electrodes of the interlocking chambers every time the pistons reciprocate in conjunction with rotation of the crankshaft. 8. The alkaline water electrolysis system of claim 7 , wherein the power source device comprises: a switching shaft installed to rotate once every two rotations of the crankshaft; two slip rings installed on the switching shaft and each connected to an external DC power source; two arc-shaped electrodes electrically connected to the two slip rings, respectively, and provided on a circumferential surface of the switching shaft to be spaced apart from each other along a circumferential direction; and brushes disposed to face each other so as to form an electrical contact state with the two arcuate electrodes and connected to the main electrodes of the interlocking chambers, respectively. 9. The alkaline water electrolysis system of claim 1 , wherein the reaction chamber comprises a cylinder in which the piston linearly slides. 10. The alkaline water electrolysis system of claim 1 , wherein the reaction chamber comprises: a diaphragm installed to be deformed by linear reciprocating motion of the piston; and a shell configured to support the diaphragm and define a space with the diaphragm.