Disclosed in the present application is a copper rotation-suspension smelting process comprising: mixing a flux and/or fume with dried copper-containing mineral powders to form a mixed material, which enters into a smelting furnace through a material channel; allowing a reaction gas to form a swirling flow under an action of a swirler, which enters into the smelting furnace through a Venturi channel under a guidance of a swirling gas channel; replenishing the reaction gas and/or a fuel to the smelting furnace through an auxiliary oxygen channel and an auxiliary fuel channel; subjecting the swirling flow which has been subjected to high-speed expansion through the Venturi channel and enters into the smelting furnace to a contact reaction with the mixed material; separating a melt generated by the reaction which falls into a settling tank into a residue layer and a copper-containing product layer.

A device for immobilising the spout on the ends of the trunnions, in a charging installation for a shaft furnace comprising a pivoting material distribution spout (1), the spout being connected to the supporting trunnions (2) by lugs (11) which engage in receptacles (21) formed in the trunnions and which are immobilised therein by pins (3) comprising at their end an eccentric nipple (31) engaging with a lug of the spout to hold the lug immobilised at the bottom of its receptacle, and locking means (4) for rotationally locking the pin. Each pin comprises, at the outer, opposite end thereof from the nipple, means (32) for rotational adjustment and tightening, so as to be able to press the nipple onto the lug of the spout with sufficient force by rotation of the pin, and the locking means comprise an indexing plate (41) connected for rotation to the end of the pin (3), the plate (41) further comprising teeth (416) arranged to cooperate with the corresponding teeth (421) of a lock (42) secured to the trunnion, in such a way that said lock can rotationally immobilise the pin in a plurality of circumferential positions of said pin.

A device for immobilising the spout on the ends of the trunnions, in a charging installation for a shaft furnace comprising a pivoting material distribution spout (1), the spout being connected to the supporting trunnions (2) by lugs (11) which engage in receptacles (21) formed in the trunnions and which are immobilised therein by pins (3) comprising at their end an eccentric nipple (31) engaging with a lug of the spout to hold the lug immobilised at the bottom of its receptacle, and locking means (4) for rotationally locking the pin. Each pin comprises, at the outer, opposite end thereof from the nipple, means (32) for rotational adjustment and tightening, so as to be able to press the nipple onto the lug of the spout with sufficient force by rotation of the pin, and the locking means comprise an indexing plate (41) connected for rotation to the end of the pin (3), the plate (41) further comprising teeth (416) arranged to cooperate with the corresponding teeth (421) of a lock (42) secured to the trunnion, in such a way that said lock can rotationally immobilise the pin in a plurality of circumferential positions of said pin.

A shaft furnace charging device and cooling system includes a suspension rotor with a charge distributor and stationary housing. The cooling system includes an annular swivel joint arranged coaxially on an axis, connecting stationary and rotary circuit portions. The swivel joint includes forward connections for receiving cooling fluid from the stationary circuit portion and supplying cooling fluid to the rotary circuit portion; return connections for receiving cooling fluid from the rotary circuit portion; and returning cooling fluid to the stationary circuit portion. The swivel joint includes a partition dividing the annular volume into cavities wherein an internal cavity is partially surrounded by an external cavity, and the forward connections are coupled via one of the cavities and the return connections are coupled via the other of the cavities. The swivel joint includes leakage-permitting communication between the external and internal cavities through annular clearances. Annular flow restrictors are provided in clearances.

A shaft furnace charging device and cooling system includes a suspension rotor with a charge distributor and stationary housing. The cooling system includes an annular swivel joint arranged coaxially on an axis, connecting stationary and rotary circuit portions. The swivel joint includes forward connections for receiving cooling fluid from the stationary circuit portion and supplying cooling fluid to the rotary circuit portion; return connections for receiving cooling fluid from the rotary circuit portion; and returning cooling fluid to the stationary circuit portion. The swivel joint includes a partition dividing the annular volume into cavities wherein an internal cavity is partially surrounded by an external cavity, and the forward connections are coupled via one of the cavities and the return connections are coupled via the other of the cavities. The swivel joint includes leakage-permitting communication between the external and internal cavities through annular clearances. Annular flow restrictors are provided in clearances.

The invention relates to a gearbox assembly (2) for a charging installation (1) of a metallurgical reactor, the assembly (2) comprising: a stationary casing (3) for housing a gear assembly, the casing (3) comprising a bottom section (3.3) with a central opening (9), and a rotor (4) mounted within the casing (3) for rotation about a first axis (A), which defines an axial direction, the rotor comprising a support (4) for the gear assembly, a lower section (4.1) of the support (4) being disposed within the central opening (9). In order to provide for a better protection of a gear assembly, the bottom section (3.3) comprises a first annular portion (7, 8) extending radially inwards to a first radius, and the lower section (4.1) has a second annular portion (10.1) extending radially outwards to a second radius that is greater than the first radius, said second annular portion (10.1) being disposed adjacent to said first annular portion (7, 8), wherein the first annular portion (7, 8) comprises a ring element (8) disposed for sliding contact with the second annular portion (10.1).

The invention relates to a gearbox assembly (2) for a charging installation (1) of a metallurgical reactor, the assembly (2) comprising: a stationary casing (3) for housing a gear assembly, the casing (3) comprising a bottom section (3.3) with a central opening (9), and a rotor (4) mounted within the casing (3) for rotation about a first axis (A), which defines an axial direction, the rotor comprising a support (4) for the gear assembly, a lower section (4.1) of the support (4) being disposed within the central opening (9). In order to provide for a better protection of a gear assembly, the bottom section (3.3) comprises a first annular portion (7, 8) extending radially inwards to a first radius, and the lower section (4.1) has a second annular portion (10.1) extending radially outwards to a second radius that is greater than the first radius, said second annular portion (10.1) being disposed adjacent to said first annular portion (7, 8), wherein the first annular portion (7, 8) comprises a ring element (8) disposed for sliding contact with the second annular portion (10.1).

The invention relates to a heat protection assembly (2, 30) for a charging installation (1) of a metallurgical reactor. In order to increase the lifetime of a heat protection shield in a charging installation of a metallurgical reactor, the assembly (2, 30) comprises a plurality of heat protection tiles (31.1, 31.2, 31.3, 31.4) disposed adjacent to each other along a surface The assembly further comprises a plurality of heat protection panels (10, 110), each panel (10, 110) comprising a common base plate (11, 111) to which a plurality of tiles (31.1, 31.2, 31.3, 31.4) are connected, which heat protection panels (10, 110) are configured to be mounted on the charging installation (1) adjacent to each other.

The invention relates to a heat protection assembly (2, 30) for a charging installation (1) of a metallurgical reactor. In order to increase the lifetime of a heat protection shield in a charging installation of a metallurgical reactor, the assembly (2, 30) comprises a plurality of heat protection tiles (31.1, 31.2, 31.3, 31.4) disposed adjacent to each other along a surface The assembly further comprises a plurality of heat protection panels (10, 110), each panel (10, 110) comprising a common base plate (11, 111) to which a plurality of tiles (31.1, 31.2, 31.3, 31.4) are connected, which heat protection panels (10, 110) are configured to be mounted on the charging installation (1) adjacent to each other.

A device for immobilising the spout on the ends of the trunnions, in a charging installation for a shaft furnace comprising a pivoting material distribution spout (1), the spout being connected to the supporting trunnions (2) by lugs (11) which engage in receptacles (21) formed in the trunnions and which are immobilised therein by pins (3) comprising at their end an eccentric nipple (31) engaging with a lug of the spout to hold the lug immobilised at the bottom of its receptacle, and locking means (4) for rotationally locking the pin. Each pin comprises, at the outer, opposite end thereof from the nipple, means (32) for rotational adjustment and tightening, so as to be able to press the nipple onto the lug of the spout with sufficient force by rotation of the pin, and the locking means comprise an indexing plate (41) connected for rotation to the end of the pin (3), the plate (41) further comprising teeth (416) arranged to cooperate with the corresponding teeth (421) of a lock (42) secured to the trunnion, in such a way that said lock can rotationally immobilise the pin in a plurality of circumferential positions of said pin.