Abstract: A blasting apparatus has two or more pressured tanks and a switching member for selecting one of the pressured tanks from which particles are to be fed to an ejection portion, thereby which enabling a continuous blasting operation. The blasting apparatus has a particle supply valve which uses a valve rod and piston arrangement for preventing leakage of particles. Such a valve arrangement enables airtightness to be retained within pressurized chambers of the valve housing for a long period of time.
Abstract: A blasting apparatus has two more pressure tanks (1)(11), and a switching member (20) for selecting one pressure tank from which particles are to be fed to the ejection portion from the at least two pressure tanks, which enables to carry out a continuous blasting operation. The blasting apparatus has a particle supply valve (200) which uses a sliding member (207) and a piston (208) instead of a rubber partition wall, thereby preventing particles and compressed air from being leaked. Further, in a particle separator (300) provided in the blasting apparatus, there is provided a separator container into which reusable particle and particle dust obtained after a blasting operation are blown and then diffused by a diffusion member (310), thereby enabling to separate particle dust and reusable particles with a high separation accuracy.
Abstract: A blasting apparatus has two more pressure tanks (1)(11), and a switching member (20) for selecting one pressure tank from which particles are to be fed to the ejection portion from the at least two pressure tanks, which enables to carry out a continuous blasting operation. The blasting apparatus has a particle supply valve (200) which uses a sliding member (207) and a piston (208) instead of a rubber partition wall, thereby preventing particles and compressed air from being leaked. Further, in a particle separator (300) provided in the blasting apparatus, there is provided a separator container into which reusable particle and particle dust obtained after a blasting operation are blown and then diffused by a diffusion member (310), thereby enabling to separate particle dust and reusable particles with a high separation accuracy.