JPS6233752A - Float for bath level sensor - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] (Industrial application field) The present invention relates to a float for a hot water level sensor.

(Prior art) In recent years, a slag removal device has been developed that suction removes slag generated during scouring work of metals, etc. When using this device,
In order to determine the level at which the suction head for removing slag should be lowered, a hot water level sensor is attached to the suction head, and the sensor detects the thickness of the slag above the molten metal and the position of the molten metal surface. There is.

This molten metal level sensor measures the thickness of the slag and the molten metal surface, that is, the position of the molten metal surface, by gradually lowering a float and immersing it in the slag and molten metal, and measuring the buoyancy acting on the float with a load cell. This float is required to exhibit sufficient heat and corrosion resistance even when immersed in high-temperature slag and molten metal.
Conventionally, refractories such as zirconia have been used as materials for floats, and in order to provide heat resistance and reduce the adhesion of slag, etc., the floats have been formed into a pipe shape, and bubbles have been added to the free end side, which is immersed in slag and molten metal. Nitrogen gas is blown into the float through a support pipe that connects the float and the load cell, and the nitrogen gas is ejected from the bubbling holes provided in the float.

(Problems to be Solved by the Invention) However, conventional floats lack durability, and when used repeatedly, breakage or cracks occur after 5 to 7 uses, necessitating frequent replacement. In addition, since the entire float is made of refractory material, it is easily damaged when subjected to thermal or mechanical shock, and requires careful handling.

(Means for Solving the Problems) The present invention, as a means for solving the above problems, comprises a metal float body and a heat-resistant protective coating formed on the outer surface of the metal float body, The heat-resistant protective coating has the formula: MCrA1Y (M is Ni.

Represents one or two of Co and Fe. ) The present invention provides a float for a hot water level sensor, which is characterized by being a thermally sprayed wave film made of a heat-resistant alloy represented by the following formula and a high-melting point oxide.

In an embodiment, at least one high melting oxide selected from the group consisting of alumina, zirconia, Carnoy, aluminica, spinel, mullite is used as the high melting oxide.

In addition, in a preferred embodiment II@, in order to improve the adhesion between the metal float body and the heat-resistant protective coating,
A metal spray coating made of a Ni-Al-Mo alloy is interposed between the two.

Although this metal spray coating is not necessarily required, peeling may occur depending on the combination of the float body material and the heat-resistant protective coating material, so it is preferable to interpose a metal spray coating between the two.

The heat-resistant alloy constituting the old heat-resistant aryenium has the formula: MCrA1
Y (M represents one or two of Ni, Co, and Fe.

) Any commercially available heat-resistant alloy can be used. This heat-resistant alloy is preferably mixed with the oxide in the form of a powder at a volume ratio of 2:8 to 5:5 and thermally sprayed. This is because if the content of the heat-resistant alloy is less than 20%, thermal spraying will be difficult, and if it exceeds 50%, no significant improvement in durability will be observed.

(Function) In the float for a hot water level sensor according to the present invention, the metal float body provides mechanical strength to the float, and the heat-resistant protective coating formed on the outer surface of the metal float body provides heat resistance to the float. At the same time, it serves to prevent slag from adhering. Further, the metal sprayed coating formed between the float body and the heat-resistant protective coating serves to improve the adhesion of the heat-resistant protective coating and improve durability.

(Example) Hereinafter, an example of the present invention will be described with reference to the attached drawings.
Be happy.

FIG. 1 shows the configuration of a hot water level sensor using a float according to the present invention, where l is a float, 2 is a support pipe, 3 is a load cell, 4 is a cooling box, and the load cell 3 is a suction head 5 of a slag removal device. It is surrounded by a cooling box 4, and cooled by circulating cooling nitrogen gas through the cooling box.

As shown in FIG.
), a metal sprayed coating 11 formed on the outer surface of the float body IO, and a heat-resistant protective coating 12 laminated on the metal sprayed coating. 10. A float body on the free end side to be immersed; A plurality of bubbling pores 13 are formed passing through the metal spray coating 11 and the heat-resistant protective coating 12, and the free end side of the float body 10 is closed.

The metal sprayed wave film is made of Ni-AlMo alloy (85% Ni
-10%A1-5%Mo) powder into the float body! 0 by plasma spraying on the outer surface of the 0. In addition, the heat-resistant protective wave film I2 is made of Co as a heat-resistant alloy.
-Cr-AI-Y heat-resistant alloy is used as a high melting point oxide, alumina is used, and these powders are mixed at a volume ratio of 3:7 and then plasma sprayed. The composition of the heat-resistant alloy is as follows: Cr
22.42%, A1 12.72%, Y 065%,
CO, O 14%, SO, 002%, Po, 001%
, the remainder was Co.

In use, the second end of the float body 10 is attached to the support pipe 2 by screwing, nitrogen gas is blown into the float through the support vibe 2, and the bubbling holes provided in the float 1 are blown into the float. While blowing out nitrogen gas from 13, it is gradually immersed in the slag and molten metal.

When the float 1 according to the present invention having a planar structure was used in place of a conventional float made of luconia, it could be used continuously up to 70 times. By the way, 11 is the new Norconia flow)
In the case of ・, the maximum number of times the same row was cut was 7 times.

In addition, when the mixing ratio of Co-Cr-A I-Y type heat-resistant alloy powder and alumina powder is 55, the usable number of times is about twice that of a zirconia float, and when it is 2.8,
It was about 8 times as large.

(Effects of the Invention) As is clear from the explanation below, according to the present invention, the float body is formed of a safe fdli metal material, and the float body is made of a heat-resistant alloy powder and a high melting point oxide. The mechanical strength of the float is improved by forming a heat-resistant protective wave film consisting of 4-layers, increasing the heat resistance and preventing slag build-up. This is approximately 10 times more efficient than a manufactured float, but it also has the advantage of reducing the cost of the float.

[Brief explanation of the drawing]

FIG. 1 is a schematic explanatory diagram of a hot water level sensor using a float according to the present invention, and FIG. 2 is a sectional view of the float according to the present invention. 1 - Float lO - Float body II - Metal spray coating 12 - Heat-resistant protective coating 13 - Bubbling pores Patent applicant Kubota Iron Works Co., Ltd. and 1 other person Patent attorney Aoyama Ao and 2 others Figure 1

Claims (4)

[Claims] (1) It consists of a metal float body and a heat-resistant protective coating formed on the outer surface of the metal float body, and the heat-resistant protective coating has the formula: MCrA1Y (M is Ni, Co,
Represents one or two types of Fe. ) A float for a hot water level sensor, characterized in that it is a thermally sprayed coating made of a heat-resistant alloy represented by () and a high melting point oxide. (2) The float for a hot water level sensor according to claim 1, wherein the high melting point oxide is at least one kind of high melting point oxide selected from the group consisting of alumina, zirconia, calcia, silica, spinel, and mullite. . (3) Between the metal float body and the heat-resistant protective coating,
The float for a hot water level sensor according to claim 1 or 2, wherein the float is provided with a metal sprayed coating made of a Ni-Al-Mo alloy. (4) Any one of claims 1 to 3, wherein the heat-resistant protective coating comprises a mixture of a heat-resistant alloy and a high melting point oxide at a volume ratio of 2:8 to 5:5. Float for the hot water level sensor described in item 1.