SU933238A1 - Electromagnetic metering apparatus - Google Patents

Description

(54) ELECTROMAGNETIC DOSING DEVICE

one

The invention relates to foundry.

An electromagnetic metering device is known that is installed permanently above the dispensing tank with a bracket and contains a magnetohydrodynamic pump with an extensive metal tract: one end is directed into the mold, the other into the dispensing container}.

The disadvantage of this device is that when the level of the melt in the dispensing tank decreases, the metal consumption changes, and its automatic regulation requires a whole system of complex sensors.

An electromagnetic metering device is known, consisting of a cylindrical inductor with a ferromagnetic core, metal scrap, a housing, and a vertical movement actuator 2.

This device is the closest to the image

the essence of the actual effect achieved. The disadvantages of the known device is the difficulty of stabilizing the supply of the device (additional devices are needed:. Precision flow meters, control system); highly qualified personnel are required to service the device, since the stabilization of the supply is carried out by complex electronic equipment; to obtain the necessary control range and stabilize the supply, it is necessary to raise the output part of the metal tract relative to

15 but high from the level of the liquid metal, which makes it difficult to match the output part of the metal tract with the entrance of the mold (an additional lift installation is needed); at

The adjustment of the height of the output part of the metal tract relative to the level of entry into the form causes splashing and burning out of the part of the metal. This leads to a decrease in metering accuracy and a reduction in the quality of castings, as well as worsens the working conditions of the caster.

The purpose of the invention is to improve the metering accuracy and improve the quality of castings.

The chain is achieved by the fact that in an electromagnetic metering device, including a cylindrical inductor, a ferromagnetic core, a metal tract connected pivotally to the body, and a drive of vertical movement, is provided with a float connected to the core, which is mounted in the inductor with the possibility of moving its axis.

Pa drawing shows a diagram of the proposed device.

The float 1 is located next to the inductor 2 of the MHD pump and is connected to its core 3 by means of a traction system including rod 4 and 5 and 6 rods. Ties 5 and 6 are connected to the bracket 7. Float 1 and core 3 The counterweight 8, which is located on one of the ribs 5 or 6, is balanced by the metallotrakt 9 fixed by means of a hinge 10 with the housing 11. To fix the float I before the pump starts, there is a brake 2. 13, The pump is raised and lowered by means of a drive 14 vertic movement. In order to improve the start-up of the pump, it is advisable to make its core 3 of two parts. One part of the core 3 is attached to the bottom of the pin 2, and the second is connected to the traction system.

Electroappaziono dispensing device operates as follows.

Before starting work, the metallotrakt 9 and heart1P 3 are heated to the operating temperature. The device is then immersed by means of the actuator 14 into the liquid metal to the depth required for the launch. . The float 1, which takes up its working position, is released, raising the core 3 to its original position. Thereafter, a voltage is applied to the inductor 2 and the feed to the mold begins. As the level of metal in the tank decreases, the float 1 is lowered by the nilce and the core 3 is lowered in proportion to it.

the core 3 relative to the inductor 2 downwards causes an increase in the magnetic properties of the pump, an increase in the pressure developed by the pump and a stabilization of the flow.

When the core 3 is made of two parts, the starting conditions do not depend on the position of the float 1 relative to the inductor. After pouring the molds, the pump is turned off by opposition, i.e. change the direction of the floor inductor 2.

The use of an implied electromagnetic. Dosing device has the following advantages over the existing ones.

1. Simple and reliable automatic stabilization of feed at large deviations of the level of liquid metal.

in the tank. Therefore, a special system for measuring and stabilizing the supply, which would consist of sensors, comparators, amplifiers and actuators, is not needed.

2. Troughs and other devices are not required to match the output part of the metal tract with the casting mold.

3. For servicing the device does not require highly qualified specialists in the field of electronics.

4.In connection with the simplification of the stabilization system, the power consumption during operation is reduced.

5. Improved working conditions and quality of withdrawals, since the exit part of the metal tract is securely connected to the entrance of the mold. This eliminates the splashing and burning of metal parts.

Claims (2)

1. USSR author's certificate number 313268, cl. H 02 N 4/20, 1971, 2. USSR author's certificate for the application 2862709/02, cl. B 220 37/00 04.01.80 (prototype).