The present invention relates to a salt water recirculation type salting vessel, particularly to a salt water recirculation type salting vessel which has excellent salting performance and workability by pressing cabbage automatically descended with the passage of salting time, thereby greatly applying an osmotic pressure due to buoyancy onto the cabbage. The purpose of the present invention is to provide a salt water recirculation type salting vessel which not only does not need a separate operation by preventing the cabbage from being floated upward again when injecting salt water again into cabbage automatically descended during recovering of salt water according to the salting process, but also can perform high quality salting of the cabbage by greatly applying an osmotic pressure due to buoyancy onto the cabbage. A salt water recirculation type salting vessel of the present invention includes: a salting tank (1100) including plural hinge brackets and left and right pressing plates 1300, 1400 which include hinge units assembled into the hinge brackets to be rotated, side surfaces of which are positioned at the top of the salting tank to prevent cabbage from escaping to the top by dividing a plane frame assembled with the hinge units by lateral bars, which are disposed at left and right sides in such a shape that the left and right pressing plates are symmetrical to each other, and which are removably installed such that the left and right pressing plates are not capable of being rotated to each other in an upward direction by buoyancy of the cabbage, wherein the hinge units include rotation brackets of which a column of the rotation brackets are assembled into hinge brackets by first hinge pins to be rotated, and which are installed on the top of the salting tank such that the bottom surface of the rotation brackets are supported by the salting tank, pressing plate fixing brackets one ends of which are removably assembled into other ends of the rotation brackets,
