Abstract: Disclosed is a washing ball which comprises a first tubular portion which is formed so as to vertically extend from the center of the upper end of the upper main body; a second tubular portion which is formed so as to vertically extend from the center of the upper end of the lower main body; multiple porous ceramic balls which are filled into both sides of the inside of the lower main body; a blocking film which prevents the multiple porous ceramic balls filled into the lower main body from moving out of position; and a laundry additive container which is removably inserted into the inner sides of the first tubular portion, the blocking film, and the second tubular portion which communicate with each other when the upper main body and the lower main body are coupled together.

Abstract: Disclosed is a washing ball which comprises a first tubular portion which is formed so as to vertically extend from the center of the upper end of the upper main body; a second tubular portion which is formed so as to vertically extend from the center of the upper end of the lower main body; multiple porous ceramic balls which are filled into both sides of the inside of the lower main body; a blocking film which prevents the multiple porous ceramic balls filled into the lower main body from moving out of position; and a laundry additive container which is removably inserted into the inner sides of the first tubular portion, the blocking film, and the second tubular portion which communicate with each other when the upper main body and the lower main body are coupled together.

Abstract: The apparatus capable of producing ionized water may have a simplified structure to prevent water from being lost and also prevent an electrode and ion diaphragm from being damaged. The apparatus may selectively supply alkaline water and acidic water. The apparatus includes an ionization electrolytic cell configured to contact the raw water only with one electrode disposed on one or more inner walls of the ionization electrolytic cell to contact the raw water only with either of the anode and cathode, an ionization water controller controlling the ionization electrode according to the discharge of the ionized water, and a switch applying a signal from a user to the ionization water controller.

Abstract: An ion water device, constructed with an ionization container holding raw water to be ionized; and an ionizing electrode unit disposed at one side of the ionizing container, with only one electrode, either an anode or a cathode, directly contacting the raw water. An ionization water control unit controls the ionizing electrode unit in accordance with a user's signal, and a power supply supplying electrode power to the ionizing electrode unit according to a control of the ionizing control unit.