SU765621A1 - Vacuum elevator electric furnace - Google Patents

Description

The invention relates to equipment for heat treatment in vacuum. A vacuum elevator-type electric furnace includes a housing in which a cooling chamber with a quenching tank, a container transfer mechanism, a vacuum system and a heating chamber with inlet hatch doors 1 are placed. The movement of the inlet flap of the heating chamber of a known vacuum electric furnace is carried out manually using a handle pulled out through the vacuum seal from the cavity of the electric furnace. This reduces the productivity and prevents the automatization of the product heat treatment cycle. The vacuum elevator furnace is known, which contains the body and the heating chamber with flaps located therein, the cooling chamber and the container transfer mechanism 2. A disadvantage of the known furnace is the unreliability of the sash drive mechanism (electric motor, hydraulic or pneumatic drive) operating in high temperature conditions. The purpose of the invention is to increase the reliability of the electric furnace in operation. This is achieved by the fact that the doors of the entrance hatch of the heating chamber are hinged on the side wall of the housing under the heating chamber and are kinematically connected with different-sized weights, and the container moving mechanism has a support for large loads. The device ensures the movement of the valves from the carriage drive, the electric motor of which is brought out of the electric furnace. FIG. 1 shows a vacuum elevator electric furnace, general view; in fig. 2 drives one of CTBof) OK; in fig. 3 - valve drive mechanisms, top view. The vacuum electric furnace consists of a housing 1 with a charging hole 2, heating chambers 3, chambers 4 cooled with a quenching tank 5. In the electric furnace there is a carriage 6 on which a container 7 with parts is mounted. The carriage 6 moves along the rolling pins 8, reinforced} 1) 1m on the housing 1. The carriage 6 is set in motion by a cable 9, one end of which is not firmly fixed in the upper part of the housing 1 of the electric furnace (not shown), unit 11, mounted on the body of the electric furnace, and namotz on the drum 12. The shaft of the drum 12 is brought out of the cavity of the electric furnace through a vacuum seal and connected to the electric drive. A branch pipe 13 is connected to the body 1 of the electric furnace and is connected to a vacuum system.

On the side wall of the housing, under the heating chamber, the hinges 14 are hinged for closing the hatch of the heating chamber 3. Each of the flaps 14 is kinematically connected to two differently sized cargoes — less than 15 and greater than 16. Minor cargo 15 is connected to sash 14 by means of tons 17 and 18, and a large cargo 16 by means of cable 19 thrown over block 20. On the carriage 6 supports 21 for loads 16 are rigidly strengthened.

The furnace works as follows.

After loading the container 7 with the parts into the electric furnace, the charging port 2 is sealed and the internal space of the electric furnace is evacuated through the pipe 13. After the required vacuum is reached, the electric drive of the carriage 6 is turned on. The drum 12 begins to rotate, winding the cable 9, and the carriage 6 with the container 7 starts to move upwards. Upon reaching a certain height, the supports 2 seize the loads 16 and move them up weakened by the cables 19. The loads 15 at the same time begin to move downward and through the systems of the grids 17 and 18 push the flaps 14 towards the lateral surface of the cooling chamber 4. By the time the container 7 passes through the heating chamber 3, the shutters 14 are separated by weights 15 to its extreme position and do not prevent the container 7 from passing.

When the container 7 reaches the upper position, the heating hatch 3 is tightly closed by the bottom of the carriage 6. Then the parts are heated. At the end of the heating, an electric riv g | carriage 6, while

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the cable 9 begins to wind off the drum 12 and the carriage 6 moves downward, lowering the container 7 into the cooling chamber 4.

The ropes 19, overcoming the force from t g 17 and 18 with a weight of 15 loaded to them, tighten and shift the flaps 14 to the hatch of the heating chamber 3. When the flaps 14 are moved, the deflection of tons 17 and 18 decreases, and the force from them on the flap 14 increases. At that moment, when the force from weight r 18 equilibrates the weight of cargo 16, the movement of the valves 14 stops and the cargo 16 stops and the carriage 6 with supports 21 continues to move down. The start time of the opening of the valves is controlled by the cables 19. At the end of the heat treatment, the hatch 2 is depressurized and the container 7 with the parts is removed from the electric furnace.

In this electric furnace, the sash drive is more reliable, since the drive mechanism

2Q is outside the furnace. In addition, the sash drives through weights and carriage supports from the carriage drive, which simplifies its design.

Claims (2)

1.Prospekt Vacuum elevator resistance electric furnace, With EV-2.2 / 11.5 М01, СЭВ-3,3 / 11,5 М01, СЭВ-5,5 / 11, М01, М., 1970, fig. 2 2. USSR author's certificate N ° 378455, cl. From 21 D / 00, 1972. f / sixteen go 9 s go w