KR20130045585A - Leverl switch sensor apparatus of electrode type - Google Patents

Abstract

PURPOSE: An electrode type level switch sensor device is provided to prevent steam generated by the heat of molten metal from being condensed and adhered to a measuring unit of low temperature by the temperature control of a heater unit. CONSTITUTION: An electrode type level switch sensor device(1) comprises an electrode type measuring unit(10) and a heater unit(20). The electrode type measuring unit measures the level of molten metal(L). The heater unit controls the temperature of the measuring unit so that condensation caused by steam generated by the molten metal does not interfere in the measuring unit. The molten metal includes sodium. The molten metal includes at least one of lithium, potassium, a sodium-potassium alloy, and a lead-bismuth alloy.

Description

Electrode level switch sensor device {LEVERL SWITCH SENSOR APPARATUS OF ELECTRODE TYPE}

The present invention relates to an electrode level switch sensor device, and more particularly, to an electrode level switch sensor device that can prevent liquid level monitoring malfunction of molten metal including sodium by improving insulation.

In general, a level switch sensor device is employed to monitor the liquid level of molten metal in a facility using molten metal (Li, K, Na-K alloy, Pb-Bi alloy, Pb) containing sodium (Na). This level switch sensor device has an electrode rod wrapped by a nozzle to monitor the liquid level of the molten metal.

On the other hand, when the molten metal is excellent in conductivity and steam is generated, the generated steam is condensed and attached to the upper part of the exposed electrode with a relatively low temperature. The condensate due to the vapor adhering to the exposed portion of the electrode is a factor that lowers the insulation by interconnecting the (-) and (+) electrodes. This lowering of insulation leads to a problem of lowering the liquid level monitoring rate of the molten metal by the level switch sensor device.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an object thereof is to provide an electrode level switch sensor device capable of preventing insulation deterioration due to steam generation of molten metal.

Electrode level switch sensor device according to a preferred embodiment of the present invention for achieving the above object, in the electrode level monitoring sensor device for measuring the liquid level of the molten metal containing sodium (Na), An electrode type measuring unit for measuring the level, and a heater unit for controlling the temperature of the measuring unit so that condensate due to the steam generated from the molten metal does not interfere with the measuring unit.

According to one side, the molten metal containing sodium is at least one of lithium (Li), potassium (K), sodium-potassium alloy (Na-K), lead-bismuth alloy (Pb-Bi), and lead (Pb) It includes.

According to one side, the measuring unit is entered into the container in which the molten metal is accommodated, the outer peripheral surface of the partial region including an electrode member for measuring the level of the molten metal, the exposed region of the electrode member exposed to the outside of the container And an insulating member for wrapping and supporting the insulating member, and a monitoring unit for monitoring the level of the molten metal measured from the electrode member.

According to one side, the electrode member enters the container through the top of the container, the upper end includes an electrode rod exposed to the outside, the insulating member is wrapped around the upper end of the electrode support, the monitoring unit and the container The level of the molten metal is monitored by a contact signal due to the contact of the negative electrode and the positive electrode applied to each of the electrode members.

According to one side, the heater unit, a heater provided in the partial region of the electrode member insulated by the insulating member, and generates heat;

And a temperature sensor provided in a portion of the insulating member insulated by the insulating member, the temperature sensor measuring a temperature of the electrode member, and a temperature controller controlling the heater at a temperature measured by the temperature sensor.

According to one side, the heater has a length more than twice the length of the region to which the condensate due to the steam generated from the molten metal can be attached.

According to one side, the temperature sensor faces the boundary of the insulating member.

A level monitoring sensor device according to a preferred embodiment is an electrode level monitoring sensor device for measuring the liquid level of molten metal containing sodium (Na), the electrode type measuring unit for measuring the level of the molten metal, and And a heater unit for heating a portion of the measuring unit that does not face molten metal.

According to one side, the measuring unit, one end is in contact with the molten metal to measure the level of the molten metal, the insulating member to wrap and support the other end of the electrode rod that is not in contact with the molten metal, the electrode rod And a monitoring unit for monitoring the level of the molten metal measured from the heating unit, wherein the heater unit heats the other end of the electrode.

According to one side, the heater unit includes a heater installed in the other end of the electrode to generate heat, a temperature sensor for measuring the other end temperature of the electrode, and a temperature control unit for controlling the heater with the temperature measured from the temperature sensor, The temperature sensor faces a boundary of the insulating member.

According to the present invention having the configuration as described above, first, it is possible to prevent the steam generated due to the high temperature of the molten metal is condensed and attached to the relatively low temperature measuring unit by controlling the temperature of the heater unit.

Second, since the measurement unit by the condensate does not interfere, it is possible to improve the problem of conventional insulation deterioration, thereby contributing to the improvement of the level monitoring efficiency of the molten metal according to the improvement of insulation. This, in turn, makes it possible to improve the monitoring accuracy of the electrode level monitoring sensor device.

1 is a configuration diagram schematically showing an electrode level switch sensor device according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Referring to FIG. 1, the electrode level monitoring sensor device 1 according to an exemplary embodiment of the present invention includes a measuring unit 10 and a heater unit 20.

For reference, the electrode level monitoring sensor device 1 described in the present invention measures the liquid level, that is, the level of the molten metal L including sodium (Na). Here, the molten metal (L) includes at least one of lithium (Li), potassium (K), sodium-potassium alloy (Na-K), lead-bismuth alloy (Pb-Bi), and lead (Pb). do.

The measuring unit 10 measures the level of the molten metal (L). The measuring unit 10 includes an electrode member 11, an insulating member 12, and a monitoring unit 13 for level measurement.

The electrode member 11 enters into the container V in which the molten metal L is accommodated, and measures the level of the molten metal L. Specifically, the electrode member 11 is an electrode that enters the inside of the container V through the open upper portion of the container V. At this time, the electrode member 11, which is the electrode rod, is an insertion end that enters the container V through a nozzle N provided at an upper end of the container V, and the other end is exposed from the container V to the outside. It is an exposed stage. The insertion end of the electrode member 11 is in contact with the surface of the molten metal (L) to measure the level.

On the other hand, the electrode member 11 is formed of a stainless steel material, it is mounted in a sealed state with respect to the nozzle (N) through the connecting member (14).

The insulating member 12 wraps and insulates an outer circumferential surface of a partial region including an exposed region of the electrode member 11 exposed to the outside of the container V. That is, the insulating member 12 insulates the exposed end that is not in contact with the surface of the molten metal (L). Although the insulating member 12 is exemplified as being formed of a ceramic or Teflon material, it is natural to select one of various insulating materials.

For reference, as shown in FIG. 1, in order to prevent the insulating member 12 from being damaged by a high temperature of about 200 ° C. of the molten metal L and to improve the sealing force of the electrode member 11, it is used even at a high temperature. The O-ring 15 is made of rubber material.

The monitoring unit 13 monitors and controls the level of the molten metal L measured from the electrode member 11. The monitoring unit 13 monitors the level of the molten metal L with a contact signal due to the contact of the negative electrode (−) and the positive electrode (+) applied to each of the container V and the electrode member 11.

The heater unit 20 is provided in the measuring unit 10 to maintain the outer surface of the measuring unit 10 in a constant state. The heater unit 20 is provided in the measuring unit 10 to heat the outer surface of the measuring unit 10 to a predetermined temperature to prevent the molten metal (L) is condensed and attached. That is, the heater unit 20 is a vapor of the molten metal (L) generated by the high temperature, or the metal oxide / metal hydroxide containing the steam is outside of the electrode member 11 having a relatively low temperature, that is to the exposed end This is to prevent condensation and adhesion. The heater unit 20 includes a heater 21, a temperature sensor 22 and the temperature control unit 23.

The heater 21 is provided in a portion of the electrode member 11 wrapped by the insulating member 12 and generates heat. In detail, as the temperature of the heater 21 exposed to the outside of the nozzle N is lowered, the heater 21 may have a molten metal (ie, exposed area) at a portion of the electrode member 21 exposed through the nozzle N. Metallic vapors, including sodium (Na) generated from L), are prevented by heat from condensation and adhesion. In addition, as the heater 21 heats the electrode member 11, the generated metal vapor is induced to not condense, and the condensed metal is heated to be converted into a complete oxide, thereby providing the insulation member 12. Prevent dielectric breakdown. That is, the heater 21 reduces the temperature difference between the insertion end of the electrode member 11 in contact with the molten metal (L) and the exposed end exposed to the outside of the container (V).

For reference, the length H1 of the heater 21 varies depending on the characteristics of the steam generated from the molten metal L used and the internal state of the container V. Preferably, the heater 21 may have a length H1 greater than or equal to an area generated from the molten metal L and to which condensate due to steam may be attached to the electrode member 11. In addition, since the heater 21 is located at a position spaced apart by the length of H2 shown in FIG. 1 from the nozzle N position of the container V, the damage of the O-ring 15 that provides the sealing force is prevented. This is good.

The temperature sensor 22 is provided in a portion of the insulating member 12 wrapped by the insulating member 12 to measure temperature. That is, the temperature sensor 22 is installed in the insulating member 12 to face the heater 21. More specifically, the temperature sensor 22 is mounted at a boundary of the insulating member 12, that is, the end portion of the insulating member 12 surrounding the electrode member 11 and senses the temperature of the electrode member 11. .

The temperature control unit 23 controls the heater 21 to a temperature measured by the temperature sensor 22. To this end, the temperature control unit 23 corresponds to the degree of cooling of the electrode member 21, such as the type, handling condition, operating conditions of the molten metal (L) by the information sensed from the temperature sensor 22, The temperature of the heater 21 is controlled. At this time, the temperature controller 24 which exchanges information with the temperature sensor 22 from the temperature controller 24 determines the temperature of the heater 21 to control the power of the heater 21 through the power controller 25. , The temperature of the heater 21 is controlled.

The operation of the electrode level monitoring sensor device 1 according to the present invention having the above configuration will be described with reference to FIG.

As shown in FIG. 1, the electrode member 11 of the measuring unit 10 enters into contact with the surface of the molten metal L through the nozzle N of the container V. Then, the electrode member 11 is in contact with the molten metal (L), the cathode (-) of the container (V) and the anode (+) of the electrode member 11 is in contact with the monitoring unit 13 is molten metal The level of (L) is monitored.

On the other hand, even when steam is generated from the molten metal L due to the high temperature by the heat of the heater 21 provided in the partial region insulated from the insulating member 12 of the electrode member 11, the electrode member 11 The condensate due to the steam generated from the molten metal L is prevented from adhering to it. At this time, the temperature of the heater 21 is controlled by controlling the power by the temperature sensor 22 and the temperature control unit 23.

Although the present invention has been described with reference to the preferred embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the following claims. It can be understood that

1: Electrode level monitoring sensor device 10: Measuring unit
11: electrode member 12: insulating member
13: monitoring unit 20: heater unit
21: heater 22: temperature sensor
23: temperature control unit

Claims (10)

In the electrode level monitoring sensor device for measuring the liquid level of molten metal containing sodium (Na),
An electrode measuring unit for measuring the level of the molten metal; And
A heater unit for controlling a temperature of the measuring unit such that condensate due to steam generated from the molten metal does not interfere with the measuring unit;
Level monitoring sensor device comprising a.
The method of claim 1,
The molten metal including sodium may include at least one of lithium (Li), potassium (K), sodium-potassium alloy (Na-K), lead-bismuth alloy (Pb-Bi), and lead (Pb). Level monitoring sensor device.
The method of claim 1,
The measuring unit,
An electrode member which enters into a container in which the molten metal is accommodated and measures the level of the molten metal;
An insulating member wrapping and supporting an outer circumferential surface of a partial region including an exposed region of the electrode member exposed to the outside of the container; And
A monitoring unit for monitoring the level of the molten metal measured from the electrode member;
Electrode level monitoring sensor device comprising a.
The method of claim 3,
The electrode member includes an electrode rod through which the upper end is exposed to the outside by entering the container through the upper portion of the container,
The insulating member wraps and supports the upper end of the electrode,
And the monitoring unit monitors the level of the molten metal by a contact signal due to a contact between a cathode (−) and an anode (+) applied to each of the container and the electrode member.
The method of claim 3,
The heater unit,
A heater provided in a portion of the electrode member insulated by the insulating member and generating heat;
A temperature sensor provided in a portion of the insulating member insulated by the insulating member and measuring a temperature of the electrode member; And
A temperature control unit controlling the heater to a temperature measured by the temperature sensor;
Electrode level monitoring sensor device comprising a.
The method of claim 5,
And the heater has a length greater than twice the length of the region to which the condensate due to vapor generated from the molten metal can attach.
The method of claim 5,
The temperature sensor is an electrode level monitoring sensor device facing the boundary of the insulating member.
In the electrode level monitoring sensor device for measuring the liquid level of molten metal containing sodium (Na),
An electrode measuring unit for measuring the level of the molten metal; And
A heater unit for heating a portion of the measurement unit that does not face the molten metal;
Level monitoring sensor device comprising a.
9. The method of claim 8,
The measuring unit,
An electrode rod whose one end is in contact with the molten metal to measure the level of the molten metal;
An insulating member which wraps and supports the other end of the electrode rod which is not in contact with the molten metal to insulate it; And
A monitoring unit for monitoring the level of the molten metal measured from the electrode;
Including;
The heater unit is an electrode level monitoring sensor device for heating the other end of the electrode.
10. The method of claim 9,
The heater unit,
A heater installed in the other end of the electrode to generate heat;
A temperature sensor for measuring the other end temperature of the electrode; And
A temperature control unit controlling the heater to a temperature measured from the temperature sensor;
Including;
The temperature sensor is an electrode level monitoring sensor device facing the boundary of the insulating member.

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