JP2582156Y2 - Metal melt level sensor in the storage tank for metal melt sampling equipment - Google Patents

Description

[Detailed description of the invention]

[0001]

BACKGROUND OF THE INVENTION This invention relates to a level sensor for the molten metal in the reservoir tank for use in a sampling device of metallic melt.

[0002]

2. Description of the Related Art For example, in a molten aluminum (including an aluminum alloy, the same applies hereinafter), Al ₂ O ₃ , Mg
Inclusions composed of metal oxides such as O and Al ₂ MgO ₄ ,
Since it contains inclusions consisting of fragments of furnace refractories,
Various treatments for removing these inclusions have been applied to the molten aluminum. Then, in order to evaluate the effect of the inclusion removal treatment, usually, a sample is taken from the treated aluminum melt and analyzed.

[0003] As a molten metal sampling device, a hollow suction body immersed in the molten metal, and connected to the suction body in a communicating manner, and when the suction body is immersed in the molten metal, comes above the surface of the molten metal. And a vacuum evacuation device connected to the storage tank. The suction port has a metal melt suction port formed therein, and the inclusion trapping filter is detachably attached to the suction port. Attached one is known (see Japanese Patent Publication No. 59-28832).

In this sampling device, a suction body is immersed in a metal melt, and a predetermined amount of the metal melt is sucked into a metal melt storage tank from a suction port of the suction body by a vacuum evacuation device. Is collected, the suction body is pulled out of the molten metal to solidify the metal melt therein, and then the filter is removed to analyze the number, type, size, etc. of inclusions.

In such a sampling device, it is necessary to provide a level sensor for detecting the molten metal surface in the storage tank in order to know the amount of the molten metal sucked into the storage tank. . And conventionally,
Such a metal melt level sensor includes a stainless steel electrode disposed in a penetrating manner on the top wall of the storage tank, and a current circuit formed when the electrode comes into contact with the metal melt. Those that were designed to detect the level of were widely used.

[0006]

However, in the conventional level sensor, when the level of the molten metal in the storage tank decreases after the molten metal comes into contact with the electrode, the metal solidifies in an icicle-like manner at the lower end of the electrode. However, if the molten metal is sucked into the storage tank again, a current circuit is formed when the lower end of the solidified metal comes into contact with the molten metal, so that there is a problem that the molten metal surface cannot be accurately detected. Was. Therefore, once the molten metal is sucked into and discharged from the storage tank, the solidified metal adhered to the electrode must be removed, which is troublesome and has a problem of poor work efficiency. In particular, the inclusions in the molten metal are non-uniform, and therefore, in order to increase the accuracy of the analysis of the inclusions, the number of samplings must be increased in order to suck in the molten metal. As a result, the above-described removal operation is required every time sampling is performed, which is extremely troublesome.

[0007] The purpose of this invention was to solve the above problem gold
It is an object of the present invention to provide a level sensor for a molten metal in a storage tank for a molten metal sampling device .

[0008]

SUMMARY OF THE INVENTION A molten metal according to the present invention.
The level sensor of the molten metal in the storage tank for the sampling device is a hollow suction body immersed in the molten metal.
And the suction body is connected in communication with the suction body and the suction body is
So that it is above the surface of the melt when it is immersed in
The metal melt storage tank and the vacuum connected to the storage tank
Metal suction port is formed in the suction body.
And the inclusion trapping filter is attached to and detached from this suction port.
It is mounted freely, and the suction body is
When the molten metal is sucked into the storage tank from the molten metal inlet
Molten metal sump that simultaneously captures inclusions with a filter
Molten metal in the storage tank used for the ring device
The rod is passed through a through-hole formed in the top wall of the storage tank so that the rod can move up and down and does not fall down.The lower end of the rod is made of a heat-resistant material and made of metal. float is mounted floating on the molten metal, the reservoir Tan
In the upper part of the top wall of the top wall around the through hole through which the rod is passed, the lower end of a vertical graduated tube made of a light-transmitting material and closed at the upper end and open at the lower end <br / > Is fixed.

[0009]

The rod is passed through a through hole formed in the top wall of the storage tank so that the rod can move up and down and does not fall down.
At the lower end of the rod, a float made of a heat-resistant material and floating on the molten metal is attached, and a portion of the top surface of the storage tank around the through hole through which the rod is passed is made of a light-transmitting material. Since the lower end of the vertically graduated pipe is fixed, the float and the rod are lifted when the molten metal is sucked into the storage tank, and a certain point of the rod is reached at this time. By reading the scale of the graduated pipe at the scaled portion, the amount of molten metal in the storage tank can be known. Therefore, after the molten metal contacts the float,
Even if the level of the molten metal surface in the storage tank is lowered and the metal solidifies in the float in an icicle-like manner, if the molten metal is sucked into the storage tank again, the float and the molten metal are in contact until the molten metal surface comes into contact with the float. The rod does not rise,
The molten metal surface can be accurately detected. And storage
Accurate even when molten metal is repeatedly sucked into the tank
The molten metal surface can be detected and the molten metal
Removes icicle-shaped solidified metal every time it exits
Work is not required. In addition, the top of the vertical graduated tube
Is closed and formed on the top wall of the storage tank
The through hole will be closed by the graduated tube,
The suction of molten metal into the storage tank
Will not come.

[0010]

EXAMPLES Hereinafter, the embodiments of this invention, described with reference to the drawings. Name your, in the following description, up, down, left and right,
The upper and lower sides and the left and right sides of FIG.

Referring to FIGS. 1 and 2, the molten metal sampling apparatus includes a graphite or ceramic hollow suction body (1) having a molten metal passage (1a) inside. The right end of the molten metal passage (1a) is open to the right end of the suction body (1). This opening is indicated by (2). In the upper part of the peripheral wall of the suction body (1), a vacuum suction port (3) and a molten metal suction port (4) are formed from the left side. On the right side of the suction port (4),
A through-hole that extends vertically to include the molten metal passage (1a)
(5) is formed. The opening (2) at the right end and the through hole (5) of the molten metal passage (1a) serve as a metal molten metal discharge port.

A molten metal storage tank (8) is connected to the vacuum port (3) through a suction pipe (7) extending vertically, in a communicating manner. The suction pipe (7) has a high-temperature strength, does not generate contamination due to contact with the molten metal, and has an inner peripheral surface of the main body (9) made of a material with excellent workability. It is covered with a heat-resistant covering material (11) having excellent non-wetting properties, heat insulation properties and durability. When the molten metal is aluminum, the body (9)
For example, graphite is used. Similarly, when the metal melt is aluminum melt, as the coating material (11), for example, 30 to 60% by weight of SiO ₂ and 20 to
SiO ₂ containing 50% by weight and the balance consisting of unavoidable impurities
SiO ₂ -CaO -CaO based ceramics Al ₂ O ₃ or this at maximum 40% by weight, was the additional inclusion
-An Al ₂ O ₃ ceramic sintered body is used. The thickness of the coating material (11) is preferably 4 mm or more. Although not shown, a male screw formed at the lower end of the outer peripheral surface of the main body (9) is formed on the peripheral surface of the vacuum port (3), and is screwed into the screw, so that the suction pipe (7) is formed. ) Is fixed to the suction body (1).

In the molten metal storage tank (8), for example, the inner peripheral surface of a stainless steel body (12) is made of a heat-resistant coating material (13) excellent in non-wetting property, heat insulation and durability with the molten metal. It is coated. If the molten metal is molten aluminum, the coating material (13), like the dressing of suction tube (7) (11), for example, a SiO ₂ 30 to 60 wt% CaO2
Si containing 0 to 50% by weight, with the balance being unavoidable impurities
O ₂ -CaO-based ceramics or up to 4
SiO ₂ —C containing 0% by weight of Al ₂ O ₃
made of sintered body of aO-Al ₂ O ₃ based ceramics are used. The thickness of the coating material (13) is preferably 5 mm or more. Although not shown, the screw is formed on the inner peripheral surface of the downwardly projecting small diameter portion (12a) provided at the lower end of the main body (12), so that the screw is formed on the outer peripheral surface of the main body (9) of the suction pipe (7). By being screwed into a male screw formed at the upper end,
The lower end of the storage tank (8) is fixed to the suction pipe (7). A packing (14) made of, for example, ceramic fiber paper is interposed between the lower end surface of the storage tank (8) and the upper end surface of the suction pipe (7).

An evacuation device (16) is connected to the top cover (15) (top wall) of the storage tank (8). The evacuation apparatus includes an evacuation tube (17) and a vacuum pump (not shown) attached to the tip of the evacuation tube (17). In the middle of the evacuation tube (17), a vacuum gauge (18), a vacuum valve from the storage tank (8) side
(19) and a leak valve (21) are provided.

The molten metal storage tank (8) is provided with a level sensor (40) for detecting the level of the molten metal in the tank (8). The level sensor (40) is provided in the storage tank (8) and has a float (41) made of a material having a specific gravity smaller than that of the molten metal. When the molten metal is aluminum, the float (41) may be, for example, SiO ₂
SiO ₂ —CaO-based ceramics containing 30 to 60% by weight and CaO 20 to 50% by weight, with the balance being inevitable impurities, or SiO ₂ —CaO— containing at most 40% by weight of Al ₂ O _3. A sintered body of Al ₂ O ₃ ceramics or a ceramic fiber cloth having a specific gravity of 1.5 or less and excellent in non-wetting property and heat insulating property with molten aluminum is used. The float (41) is a tubular body (42) slidably penetrating the top lid (15) of the storage tank (8).
It is fixed to the lower end of the rod. The tubular body (42) is formed of alumina or stainless steel. Although illustration is omitted,
In the tubular body (2), when there is no molten metal in the storage tank (8), the tubular body (42) on the top surface of the top lid (15) of the storage tank (8) is formed around the hole through which the tubular body (42) penetrates. Engage the tubular body (4
2) A stopper is provided to prevent the fall. Top lid (1
5) A portion of the upper surface around the hole through which the tubular body (42) penetrates is made of a translucent material, and the lower end of the vertical graduated tube (43) is closed at the upper end and opened at the lower end.
The part is fixed. The upper end of the graduated pipe (43) is higher than the height of the upper end of the tubular body (42) when the melt surface in the storage tank (8) has risen to the highest position. Then, when the molten metal is sucked into the storage tank (8), the float (41) is lifted, and the graduated pipe (4) at a certain point provided in the tubular body (42), for example, at the position where the upper end reaches.
By reading the scale of 3), the level of the molten metal in the storage tank (8) can be detected.

A cylindrical filter receiving member (25) made of graphite or ceramics having a male screw formed on the outer peripheral surface over the entire length is screwed into the molten metal inlet (4) of the suction body (1). . The upper part of the filter receiving member (25)
A filter (26) made of porous graphite or porous ceramics is mounted on the upper surface of the filter (26) via ceramic fiber packing (29). The filter (26) is fixed by a graphite or ceramic filter holding member (27) screw-fitted onto the upper projecting portion of the filter receiving member (25).
The filter holding member (27) has a cap nut shape, and its top wall (27a)
A through hole (28) is formed in the center of the. Ceramic fiber packing (3) is also provided between the top wall (27a) and the filter (6).
0) is interposed. The filter (26) is sandwiched between the upper end surface of the receiving member (25) and the top wall (27a) of the pressing member (27). Also, a ceramic fiber packing (31) is interposed between the lower end of the peripheral wall of the holding member (27) and the upper surface of the suction body (1).

A stopper plug (32) (closing member) made of graphite or ceramic is densely inserted into the upper and lower through holes (5) of the molten metal suction body (1). The stopper (32) also closes the right end opening (2) of the molten metal passage (1a). A stick-shaped operating member (33) extending upward is integrally formed with the stopper (32). The upper part of the operating member (33) projects above the molten metal surface when the suction body (1) is immersed in the molten metal.

Next, a method of sampling the molten aluminum (M) in the molten metal holding layer and analyzing the inclusions using the above-described sampling apparatus will be described. First, the suction body (1)
The filter (26) is immersed in the molten aluminum (M) until the filter (26) is completely immersed in the molten aluminum (M).
Is preheated until the temperature reaches 680 ° C. or higher. The immersion depth is preferably 40 mm or more at the filter (26). At this time, the molten aluminum surface (L) comes to the middle of the length of the suction pipe (7) and the operation member (33)
Is above the molten metal surface (L). In addition, suction body
Immediately before immersing (1) in the molten aluminum (M), the aluminum oxide on the molten metal surface (L) is removed.

Then, the leak valve (21) is closed and the vacuum valve (19) is opened, and the inside of the apparatus is depressurized by a vacuum pump. Then, the molten aluminum (M) is sucked into the molten metal passage (1a) of the suction body (1) through the suction port (4), and the inclusions are separated and collected by the filter (26). The molten aluminum (M) is further sucked into the storage tank (8) through the suction pipe (7). The molten metal suction speed was 700
g / min is preferred. When the level sensor (40) detects that the amount of molten metal in the storage tank (8) has reached a predetermined amount, the vacuum valve (19) is closed and the vacuum pump is stopped. Thus, the work of collecting the molten aluminum (M) is completed.

After the sampling operation is completed, the stopper plug (32) is pulled out of the through hole (5) by pulling the operation member (33) upward, and the right end opening (2) of the through hole (5) and the molten metal passage (1a). And the vacuum valve (19) and the leak valve (21) are opened. Then, the molten aluminum (M) in the storage tank (8) passes through the suction pipe (7) and the molten metal passage (1a), passes through the through hole (5) and the right end opening (2) of the molten metal passage (1a) to the outside. And the molten metal surface in the sampling device is
(M) has the same height as the melt surface (L). After that, the entire sampling device was pulled out of the molten aluminum (M),
All the remaining molten aluminum (M) is discharged from the through hole (5) and the right end opening (2) of the molten metal passage (1a). At this time,
The float (41) also descends and reaches a descending position regulated by a stopper (not shown). Further, since the inner peripheral surfaces of the storage tank (8) and the main bodies (12) (9) of the suction pipe (7) are covered with the coating materials (13) and (11) as described above, the storage tank ( 8)
Also, the molten metal (M) is prevented from remaining in the suction pipe (7) and solidifying. Next, after removing the filter holding member (27) and the filter (26), the filter (26) is cut. Finally, after the cut surface is polished, the amount, size, type, and the like of the inclusions collected in the filter (26) are analyzed by observation with an optical microscope and EPMA analysis. Thus, the evaluation of the molten aluminum (M) is performed. Filter (26)
And a filter receiving member (25) and a filter holding member (27)
Since packings (29) and (30) are interposed between the filter holding member (27) and the suction body (1), the packing (31) is interposed between the filter (26) and the suction body (1). ), Between the filter receiving member (25) and the filter holding member (27), the presence of solidified metal is prevented, and the filter (26)
Can be easily removed.

In order to increase the sampling amount, a sampling operation is performed after the sampling operation is completed. In this case, as described above, first, the aluminum melt (M) in the sampling device is externalized until the molten surface in the device becomes the same height as the molten surface (L) of the aluminum melt (M) in the holding tank. To be discharged. At this time, solidified aluminum slightly adheres to the lower surface of the float (41). Further, the molten aluminum (M) remaining in the sampling device is maintained in a liquid state without solidifying by the heat of the external molten aluminum (M).

Next, the stopper plug (32) is inserted into the through hole (5) by the operation member (33), and the through hole (5) and the molten metal passage (1a) are inserted.
Close the right end opening (2) of the
Is closed and the same sampling operation as above is performed. Storage tank (8)
When the molten aluminum (M) is sucked into the float, the float (41) starts to rise when the molten aluminum (M) comes into direct contact with the float (41), whereby the molten metal surface is detected. Then, when the fixed point provided on the rod-shaped body (42) reaches a predetermined scale of the graduated pipe (43), the amount of the molten metal (M) in the storage tank (8) has reached a predetermined amount. You can see that. Therefore, the vacuum pump is stopped to end the sampling operation.

When the sampling of the required amount is completed, the aluminum melt in the sampling device is processed in the same manner as described above.
(M) is completely discharged, and the amount, size, type, etc. of the inclusions collected in the filter (26) are analyzed. Thus, the evaluation of the molten aluminum (M) is performed.

[0024]

[Effect of the invention] For the molten metal sampling device of the invention
According to the level sensor of the molten metal in the storage tank , as described above, the amount of the molten metal in the storage tank can be known by reading the scale of the graduated pipe at the point where the fixed point of the rod is reached. . Therefore, when the molten metal is repeatedly put into the storage tank , the molten metal surface can be accurately detected. Moreover, metal in the storage tank
Even when molten metal is repeatedly sucked in, the metal surface can be accurately detected.
And discharges the molten metal from the storage tank
Eliminates the need to remove icicle solidified metal every time
Become.

Further, the upper end of the vertical graduated tube is closed.
The through-hole formed in the top wall of the storage tank
It will be blocked by the filling tube,
That the molten metal can be sucked into the storage tank without difficulty.
Can be.

[Brief description of the drawings]

FIG. 1 is a vertical sectional view showing a molten metal sampling device having a molten metal storage tank to which a level sensor of the present invention is applied.

FIG. 2 is an enlarged sectional view taken along line II-II of FIG.

[Reference Numerals] 1 hollow suction body 4 metal melt inlet 8 the molten metal reservoir tank 15 Itadakifuta (top wall) 16 evacuating apparatus 26 filter 40 level sensor 41 floats 42 the tubular body (rod member) tube with 43 graduations

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-50-146371 (JP, A) Jikken Hei 3-39699 (JP, Y2) (58) Fields investigated (Int. Cl. ⁶ , DB name) F27D 21/00 G01F 23/76 G01N 1/10

Claims (1)

(57) [Scope of request for utility model registration] 1. A hollow suction body immersed in a molten metal.
And the suction body is connected in communication with the suction body and the suction body is
So that it is above the surface of the melt when it is immersed in
The metal melt storage tank and the vacuum connected to the storage tank
Metal suction port is formed in the suction body.
And the inclusion trapping filter is attached to and detached from this suction port.
It is mounted freely, and the suction body is
When the molten metal is sucked into the storage tank from the molten metal inlet
Molten metal sump that simultaneously captures inclusions with a filter
Molten metal in the storage tank used for the ring device
The rod is passed through a through-hole formed in the top wall of the storage tank so that the rod can move up and down and does not fall down.The lower end of the rod is made of a heat-resistant material and made of metal. float is mounted floating on the molten metal, the reservoir Tan
In the upper part of the top wall of the top wall around the through hole through which the rod is passed, the lower end of a vertically graduated pipe made of a translucent material and closed at the upper end and open at the lower end <br / > Is fixed to the storage tank for the molten metal sampling device
Level sensor of the molten metal in the click.