Electrocoagulation device

The invention claimed is: 1. An electrocoagulation device comprising: a housing including an inner space, an inner surface, an end step portion formed on the inner surface, and insertion grooves formed in the inner surface in a height direction of the housing; an accommodation member removably disposed in the inner space and supported on the end step portion, the accommodation member being formed of an insulating material, wherein the accommodation member includes: an accommodation space defined by a bottom wall and side walls; a plurality of first through holes formed in the bottom wall to introduce a raw water into the accommodation space; and a plurality of second through holes formed in the side walls; at least two electrode plates which are inserted into the insertion grooves on outer sides of the accommodation member and detachably coupled to the inner surface of the housing to face each other, and to which power supplied from outside of the housing is applied; and a plurality of conductive masses accommodated inside the accommodation member so as to be disposed away from the at least two electrode plates, wherein each of the conductive masses has a predetermined volume and a cylindrical shape and in contact with adjacent conductive masses so as to form air gaps between neighboring conductive masses; and the introduced raw water passes through the air gaps and then through the second through holes, and moves to the at least two electrode plates, thereby pollutant contained in the raw water being coagulated, wherein two or more through holes are formed in each of the conductive masses so as to increase a surface area in contact with the introduced raw water, wherein the two or more through holes form an angle with respect to the at least two electrode plates, and wherein a thickness of the side walls ranges from 1 mm to 10 mm. 2. The electrocoagulation device of claim 1 , wherein the conductive masses are electrically connected to the at least two electrode plates via the introduced raw water. 3. The electrocoagulation device of claim 1 , wherein each of the conductive masses is formed of any one among iron, aluminum, stainless steel, titanium, and an alloy thereof. 4. The electrocoagulation device of claim 1 , wherein a magnitude of a current or a voltage of the power is determined according to a total surface area of the conductive masses coming into contact with the introduced raw water. 5. The electrocoagulation device of claim 1 , wherein the housing includes: a first chamber into which the raw water is introduced; a second chamber disposed above the first chamber, the insertion grooves being formed in the second chamber, and the end step portion being formed between the first chamber and the second chamber; and a third chamber in which a treated water through an electrocoagulation reaction in the second chamber is temporarily stored. 6. The electrocoagulation device of claim 5 , wherein the first chamber includes an inlet pipe which has a predetermined length and in which a plurality of injection holes are formed. 7. The electrocoagulation device of claim 5 , wherein the first chamber includes a diffuser which has a predetermined length and in which a plurality of discharge holes are formed, wherein the diffuser spouts bubbles through the discharge holes using air supplied from outside of the housing. 8. The electrocoagulation device of claim 1 , wherein each of the at least two electrode plates is formed of an insoluble material.