SU904888A1 - Apparatus for metering liquid metal - Google Patents

Description

The invention relates to foundry and can be used for dosing both non-ferrous and ferrous metals.

The closest to the proposed technical essence and achieved effect is a device for dispensing molten metal, containing a closed bath with a heater, a loading and drain siphon channels, an exhaust tank with a level sensor · and a pneumatic control system ^] The insufficient performance of this device is caused by that to replenish the bath with molten metal, the filling device must be turned off and depressurized the feed channel. After replenishing the bath, the loading channel is again sealed.

These operations lengthen the unproductive cycle, reducing the performance of the device. In addition, the slag during filling of the dosing device 2 accumulates for the most part in the loading channel, therefore, a periodic stop of the device for cleaning slag from the loading channel is required, otherwise the metering accuracy of the device is impaired. 3 such a device is not possible to fill at the time of replenishment of the bath with molten metal. All this also reduces the performance of the metering device.

The aim of the invention is to improve the performance of the device.

The goal is achieved in that the device for dispensing liquid metal, including a closed bath with a heater, a loading and drain siphon channels, an outlet tank with a level sensor and a pneumatic control system, is equipped with a vertical 'partition with an opening in the lower part installed in the outlet tank and dividing it into two with a sealed device way.

In the initial section, one of which is closed and connected to the pneumatic control system, and the second is made with an overflow threshold.

The drawing shows a diagram of the proposed device.

A device for dispensing liquid metal consists of a sealed bath 1, an inductor 2 for heating liquid metal, a loading channel 3, a drain channel 4, an outlet tank 5, a liquid metal level sensor 6, a control pneumatic system with pipelines 7 and 8, partitions 9 , sealed section 10, section 11 with overflow threshold 12, holes 13 connecting section 11 section 10.

the following position operates; the liquid metal level sensor 6 is mounted in section 11 at the liquid metal discharge level. On command to start pouring into the hermetically sealed bath heated by the inductor 2, compressed gas is supplied through line 7 until the level of liquid metal in section 11 reaches the discharge level controlled by the level 6 sensor. At this moment, the liquid metal in the loading rope 3 and 3 sections 10 and 11 is located on one level.

After that, the osu-35 pipeline 8 supplies compressed gas to the sealed section 10, and the pressure of the compressed gas in the bath 1 is kept constant. After the time has passed, the pressure is released in the sealed 40 section 10 and the dose is stopped. When a subsequent dose is issued, the operation is repeated. The metal in the loading channel 3 and in sections 10 and 11 is again set at the drain level. 45 The pressure of the compressed gas in the bath 1 at each subsequent issuance of the dose increases compared to the original, and the pressure in the sealed section 10 is always the same and lower in magnitude than the pressure in the bath. The bath is replenished with liquid metal and slag is cleaned from the feed channel without shutting down the unit. If the bath is replenished with liquid metal at the time of issuing the dose, then when the liquid metal touches the level 6 sensor, the pressure in the bath 1 10 is partially relieved. The level of liquid metal in the discharge tank decreases, the metal detaches from the level sensor and the pressure relief in the bath stops. At the end of dose 15, pressure is released in the sealed section and 10.

The outlet tank in such a device is easily removable and is quickly replaced when the inner walls are overgrown with slag inclusions and metal.

Therefore, in the proposed device for dispensing eliminates unproductive downtime and due to this, productivity increases.

Claims (1)

The invention relates to foundry and can be used for dosing both non-ferrous and ferrous metals. The closest to the proposed technical essence and the achieved effect is a device for metering liquid metal containing a closed bath with a heater, loading and drainage siphon channels, discharge tank with level sensor and pneumatic control system} The insufficient performance of this device is caused by the fact that to replenish the bath with liquid metal, the primer needs to shut off and depressurize the loading channel. After filling the bath, the loading channel is sealed again. f1-reputable e operations lengthen the unproductive cycle, reducing the performance of the device. In addition, the slag during the filling of the device for dosing accumulates mostly in the feed box, therefore, a periodical shutdown of the device for cleaning slag from the loading channel is required, otherwise the metering accuracy of the device is impaired. In such a device, it is not possible to fill and the time when the bath is replenished with liquid metal. All this also reduces the performance of the dosing device. The aim of the invention is to improve the performance of the device. The goal is achieved by the fact that a device for dispensing liquid metal, including a closed bath with a heater, feed and drain siphon channels, an outlet tank with a level sensor and a pneumatic control system, is provided with a vertical partition with a hole in the lower part installed in the outlet tank and dividing it into two 39 sections, one of which is made closed and connected to the pneumatic control system, and the second is made with an overflow threshold. The drawing shows a diagram of the proposed device. A device for dispensing a liquid metal consists of a sealed bath 1, an inductor 2 for heating a liquid metal, - a loading channel 3 of the drain channel k, an outlet tank 5, a sensor 6 for a liquid metal level, a pneumatic control system with pipelines 7 and 8, partitions 9, an airtight section 10, sections 11 with an overflow threshold 12, an opening 13 connecting section 11 with a hermetic section 10. The device operates as follows. In the initial position, the sensor of the 6th level of the liquid metal installs in section 11 at the level of the discharge of the liquid metal. On command to start pouring, the bath 1 heated by the inductor 2 is hermetically sealed, the pipeline 7 supplies compressed gas until the level of the liquid metal in section 11 reaches the level of the drain monitored by the level sensor 6. At this moment, the liquid metal in the loading rope 3 and 3 of sections 10 and 11 is on one level. After that, the pipeline 8 is used to supply compressed gas to the hermetic section 10, and the pressure of the compressed gas S to the bath 1 is kept constant. When the time has elapsed, the pressure in the hermetic section 10 is depressurized and the dose is stopped; 1 when the next dose is dispensed, the operation is repeated. Metal in the boot. channel 3 and. in section 10 and 11 is set again at the level of the drain. The pressure of the compressed gas in bath 1 when ka) the subsequent delivery of the dose increases compared with the initial dose, and the pressure in the hermetic section 10 is always the same and lower in magnitude than the pressure in the bath. The replenishment of the bath with liquid metal and the cleaning of slag from the feed channel are carried out without shutting down the installation. If the bath is replenished with liquid metal at the time the dose is dispensed, then when touched. the liquid metal of the level 6 sensor; the pressure in the bath 1 is partially relieved. The level of liquid metal in the outlet tank decreases, the metal is detached from the level sensor, and the pressure drop in the bath stops. At the end of the dose, pressure is relieved in the hermetic section and 10. The outlet tank in such a device is made easily removable and is quickly replaced when the inner walls overgrow with slag inclusions and metal. Consequently, in the proposed dosing device, unproductive downtime is eliminated and, as a result, productivity is increased. The invention The device for dispensing a liquid metal, including a closed bath with a heater, loading and pouring siphon channels, a discharging tank with a level sensor and a pneumatic control system, is required in order the lower part, installed in the outlet tank and dividing it into two sections, one of which is made closed and connected to the pneumatic control system, and the second is made with an overflow threshold. Sources of information taken into account in the examination 1. USSR author's certificate in application no. 2682856/02, cl. B 22 D 39/00, 1978.