Method for low-pressure casting in a sand mould
First Claim
1. A method for low-pressure casting in a sand mould of in particular a metal having a high melting point, comprising providing a blind sand mould defining a main runner which has an open base portion, a mould cavity and a secondary runner whose cross-sectional area is much less than the cross-sectional area of the main runner, said secondary runner extending from a point of the main runner to the mould cavity;
- applying a pasty thermosetting refractory coating on the surface of the base portion of the main runner;
connecting said base portion to a mating upper end of a metal nozzle and a refractory supply pipe which has a cross-sectional area in the neighbourhood of the cross-sectional area of the main runner and partly extends into a fluidtight vessel containing the liquid metal, the lower end of the pipe being immersed in the metal whereby the pasty coating is crushed and hardened into a sealing element;
applying a gas pressure exceeding atmospheric pressure on the free surface of the metal contained in the vessel so as to fill the mould cavity with metal under pressure;
maintaining the gas pressure until the metal in the secondary runner has solidified;
bringing the gas pressure back to atmospheric pressure; and
disconnecting said base portion from said mating upper end with said sealing element adhering to said base portion.
0 Assignments
0 Petitions
Accused Products
Abstract
A mould cavity for casting the part is supplied with liquid metal by a main runner formed in the mould and connected to the upper end of a supply pipe whose sectional size is in the neighborhood of the sectional size of the main runner and which extends into a fluidtight vessel containing the liquid metal. The metal is supplied to the mould cavity by the action of a gas pressure on the free surface of the metal in the vessel.
According to the invention, the mould cavity is supplied with the metal from the main runner through a secondary runner whose sectional size is much less than the sectional size of the main runner, and the gas pressure is maintained until the secondary runner has solidified whereafter the gas pressure is returned to atmospheric pressure, whereby the liquid metal in the main runner and supply pipe returns to the vessel.
19 Citations
17 Claims
-
1. A method for low-pressure casting in a sand mould of in particular a metal having a high melting point, comprising providing a blind sand mould defining a main runner which has an open base portion, a mould cavity and a secondary runner whose cross-sectional area is much less than the cross-sectional area of the main runner, said secondary runner extending from a point of the main runner to the mould cavity;
- applying a pasty thermosetting refractory coating on the surface of the base portion of the main runner;
connecting said base portion to a mating upper end of a metal nozzle and a refractory supply pipe which has a cross-sectional area in the neighbourhood of the cross-sectional area of the main runner and partly extends into a fluidtight vessel containing the liquid metal, the lower end of the pipe being immersed in the metal whereby the pasty coating is crushed and hardened into a sealing element;
applying a gas pressure exceeding atmospheric pressure on the free surface of the metal contained in the vessel so as to fill the mould cavity with metal under pressure;
maintaining the gas pressure until the metal in the secondary runner has solidified;
bringing the gas pressure back to atmospheric pressure; and
disconnecting said base portion from said mating upper end with said sealing element adhering to said base portion. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- applying a pasty thermosetting refractory coating on the surface of the base portion of the main runner;
-
9. A method for low-pressure casting in a sand mould of in particular a metal having a high melting point, comprising providing a blind sand mould defining a main runner which has an open base portion, a mould cavity and a secondary runner whose cross-sectional area is much less than the cross-sectional area of the main runner, said secondary runner extending from a point of the main runner to the mould cavity;
- applying on the surface of the base portion of the main runner an annular sealing element comprising a core of a material which is resistant to high temperature and is covered on both sides of the core with a pasty thermosetting refractory coating;
connecting said base portion to a mating upper end of a metal nozzle and a refractory supply pipe which has a cross-sectional area in the neighbourhood of the cross-sectional area of the main runner and partly extends into a fluidtight vessel containing the liquid metal, the lower end of the pipe being immersed in the metal whereby the pasty coating is crushed and hardened into a sealing element;
applying a gas pressure exceeding atmospheric pressure on the free surface of the metal contained in the vessel so as to fill the mould cavity with metal under pressure;
maintaining the gas pressure until the metal in the secondary runner has solidified;
bringing the gas pressure back to atmospheric pressure; and
disconnecting said base portion from said mating upper end with said sealing element adhering to said base portion. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17)
- applying on the surface of the base portion of the main runner an annular sealing element comprising a core of a material which is resistant to high temperature and is covered on both sides of the core with a pasty thermosetting refractory coating;
Specification