JP2580955Y2 - Composite aluminum sensor - Google Patents

Description

[Detailed description of the invention]

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a composite type aluminum sensor capable of continuously measuring the aluminum concentration in a zinc-aluminum alloy such as a galvanized pot.

[0002]

2. Description of the Related Art A composite-type aluminum sensor a is a newly developed one. Specifically, as shown in FIG. 2, a molten salt electrolyte c and an electrode d are contained in a protective tube b using a quartz tube or the like as shown in FIG. And a measuring hole e is drilled at the tip of the protective tube b to form a sensitive portion f. The sensitive portion f and the bath-side electrode g
Is vertically immersed in a zinc bath h, and by measuring the electromotive force during this, the aluminum concentration can be continuously measured.

[0003]

However, when this composite-type aluminum sensor a is immersed in a zinc bath h and the electromotive force is measured, a quartz tube having low wettability with molten zinc is used as a protection tube b. When used, moisture in the air enters the protective tube b from the measurement hole e of the protective tube b through the interface between the protective tube b and the zinc bath h, and the molten salt electrolyte c in contact with the zinc bath h is deteriorated. It has been found that the life of the aluminum sensor a has been shortened, and in addition, moisture in the air has also penetrated through the opening at the upper end of the protective tube b to deteriorate the molten salt electrolyte c. Changes the liquid level of the zinc bath h, and as the liquid level falls, zinc solidifies and adheres to the surface of the protective tube b. Was found to crack.

Accordingly, the present invention is to provide a composite type aluminum sensor which can greatly extend the life of the aluminum sensor and does not damage the protection tube.

[0005]

[MEANS FOR SOLVING THE PROBLEMS] To achieve the above object
The molten salt electrolyte is placed in a protective tube having a measurement hole at the tip.
Position the electrode and electrically connect this electrode to the bathside electrode.
At least around the surface of the protective tube where the liquid level is located during measurement.
Around the lower outer cylinder for protection
And a protective outer cylinder with its upper end closed over the protective tube.
Characterized in that the inside is kept substantially sealed
It is.

In addition, due to the effects described later, the protection upper
The cylinder is closed, and a check valve or a thin tube is attached to the upper protective outer cylinder.
It is more preferable to provide

Further, a dehumidifying agent is provided in the upper protective outer cylinder.
Is particularly preferred.

[0008]

As described above, the composite according to the first aspect of the present invention has the following features.
According to the G-type aluminum sensor, a protective tube with a sensitive part
The bath-side electrode is immersed almost vertically in the zinc bath, and the lower
At least around the liquid level at the time of measurement.
While protecting the upper outer cylinder for protection from outside air.
By measuring the electromotive force during this time,
It can continuously measure the aluminum concentration.
You.

A composite type aluminum sensor according to claim 2
According to the protection by temperature rise due to infiltration into the zinc bath
Non-return when the pressure of the upper outer cylinder rises and exceeds a certain pressure
The air is exhausted from the valve or capillary to the outside air,
To prevent molten salt electrolyte from blowing out into zinc bath
You can do it.

A composite type aluminum sensor according to claim 3.
According to the outside of the protective upper part which is closed by the adsorption power of the dehumidifier
Moisture inside the cylinder can be removed.

[0011]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. FIG. 1 shows a composite type aluminum sensor A (hereinafter simply referred to as an aluminum sensor A) of a typical embodiment according to the present invention. For example, the aluminum concentration in a zinc-aluminum alloy such as a galvanized pot is shown. Can be measured continuously.

As shown in FIG. 1, an aluminum sensor A includes a molten salt electrolyte 2, a beta alumina 3a and an alumina standard electrode 3 in a quartz tube, a protective tube 1 made of Pyrex glass or the like.
b, the measurement port 4 is bored at the tip of the protective tube 1, and a cylindrical guide member 5 is provided downward from the end of the measurement port 4 to form a sensitive part 6, By immersing the sensitive part 6 and the bath-side electrode 7 in the zinc bath 8 and measuring the electromotive force during this, the aluminum concentration can be continuously measured. The protective outer cylinder 9 is provided so as to be in close contact with the surface except for the portion 6 or to cover the outer cylinder with a slight gap left. An air-permeable ceramic fiber 10 or the like is fitted into the opening at the upper end of the protection tube 1.

As shown in FIG. 1, a protective outer cylinder 9 is made of a metal such as stainless steel having good wettability with a zinc bath .
An upper outer cylinder 11 and a lower protective outer cylinder 12 are provided .
The upper outer cylinder 11 is provided with a space 13 extending above the upper end of the protective tube 1 and accommodating a dehumidifier described later. In addition, although the shape of the protective outer cylinder 9 is cylindrical according to the shape of the protective tube 1, various shapes such as a square cylindrical shape can be adopted.

As shown in FIG. 1, the lower protective outer cylinder 12 is provided with a male screw part 15 at the upper end of a lower outer cylinder body 14 having an inner diameter for covering the surface of the protective tube 1 in close contact with the surface halfway while leaving the sensitive part 6 of the protective tube 1.
Is fixed to one connecting member 16a having
A seal packing 17 made of rubber or the like is located on the upper surface 6a. The protection provided by the seal packing 17
It is possible to completely prevent moisture in the air from entering the gap between the lower outer cylinder body 14 of the lower outer cylinder 12 and the protective tube 1.

As shown in FIG. 1, the protective upper outer cylinder 11 has a female screw portion 18 which can be screwed into the male screw portion 15 of the one connecting member 16a, and the other connecting member which can tightly contact the seal packing 17. An upper outer cylinder main body 19 having a diameter larger than that of the lower outer cylinder main body 14 is extended upward from the upper surface of the lower outer cylinder body 16b, and a space 13 of the upper outer cylinder main body 19 is provided between clamping members 20, 20 using ceramic fiber or the like. the dehumidifying agent 21 of molecular sieve or the like is positioned in provided, the protective upper outer cylinder 1
The upper end of 1 is hermetically sealable by screwing the cap 23 through the hermetic seal 22 and the O-ring 22a.

[0016] protection for the upper outer cylinder 11, about 0.2Kg /
A check valve 24 set to cm ² is attached, and is set to operate when the pressure rises above the atmospheric pressure.
Although not particularly shown, a thin tube can be used instead of the check valve 24.

It is to be noted that the protection lower cylinder 9 has a protection lower outer portion.
The cylinder 12 covers the surface of the protective tube 1 in close contact with the surface except for the sensitive portion 6 of the protective tube 1. If it is, the function is fully exhibited. Also,
Lower outer cylinder main body 14 of protective tube 1 surface and lower protective outer cylinder 12
It is preferable that the gap is as narrow as possible to be in a close contact state. However, even if the gap has a small gap, it is not inferior effectively. That is, specifically, the distance between the surface of the protective tube 1 and the inner surface of the lower outer cylinder body 14 is 0.5 mm.
It is preferable to set it to 10 to 10 mm. If the distance is shorter than 0.5 mm, it becomes difficult to insert and assemble the protective tube 1 into the lower outer cylinder body 14. If the distance is longer than 10 mm, the solidification of zinc may cause cracks in the protective tube 1. This is because it was proved experimentally. Furthermore, in the above-mentioned case, the inside of the protective outer cylinder 9 is set to a pressure slightly higher than the atmospheric pressure by setting the protective outer cylinder 9 in a sealed state and providing a check valve 24 and a thin tube. A substantially closed state may be provided by providing a gap. In the illustrated aluminum sensor A, the bath-side electrode 7 is used as a separate member for electrical connection.
May be used as a bath-side electrode, and the protective outer cylinder 9 and the electrode 3 may be electrically connected. Furthermore, in the above-described example, the composite type aluminum sensor is targeted, but the present invention can also be applied to a protection tube or the like in a temperature sensor such as a thermocouple.

Thus, according to the aluminum sensor A of the representative embodiment according to the present invention, the protection tube 1 having the sensitive part 6 and the bath-side electrode 7 are vertically immersed in the zinc bath 8 to protect the protection tube. The aluminum concentration can be continuously measured by measuring the electromotive force during this time while the outer tube 9 protects the surface of the protection tube 1. More specifically, the lower outer cylinder main body 14 of the lower protective outer cylinder 12 made of a stainless steel having good wettability with a zinc bath is covered on the surface of the protective tube 1,
The protective tube 1 is connected to the interface between the lower outer cylinder body 14 and the zinc bath.
Moisture in the air enters through the measurement port 4 at the tip of the
In addition, the molten salt electrolyte 2 is prevented from deteriorating, and the seal packing 17 and the hermetic seal 22 in the protective outer cylinder 9 form a space 13 in the upper protective outer cylinder 11.
Since the inside can be kept airtight and the dehumidifier 21 can adsorb moisture inside, the invasion of moisture into the protective tube 1 can be completely blocked.
Then, when the temperature rises due to immersion in the zinc bath 8 and the pressure in the protection upper outer cylinder 11 of the protection outer cylinder 9 rises to about 0.2 kg / cm ² or more, the check valve 24 Operates to prevent the molten salt electrolyte 2 from blowing out from the measurement port 4 of the protection tube 1.

As described above, according to the aluminum sensor A of the representative embodiment according to the present invention, the lower protective outer cylinder 1 made of stainless steel having good wettability with a zinc bath in the protective outer cylinder 9 is used.
2 through the lower outer cylinder main body 14, the interface between the lower outer cylinder main body 14 and the zinc bath, moisture in the air enters through the measurement port 4 at the tip of the protective tube 1, and the molten salt electrolyte comes into contact with the zinc bath 8 inside. 2 can be prevented from being deteriorated, and the seal packing 17 of the lower protective outer cylinder 12 can be used .
The lower outer cylinder main body 14 of the lower protective outer cylinder 12 and the protective tube 1
Therefore, it is possible to completely prevent the moisture in the air from entering from the gap between the two, so that the life of the aluminum sensor A can be extended. Furthermore, in the protective outer cylinder 9
The lower outer cylinder body 14 of the protective lower outer cylinder 12, the protective tube 1 in the vicinity of the liquid surface of the zinc bath 8 and jacket, protection and protection tube 1 surface
Since the amount of zinc in the gap of the lower cylinder 12 for use can be suppressed to a small amount, it is possible to prevent the protection tube 1 from being damaged by zinc solidified in the gap. Further, the seal packing 17 and the hermetic seal 22 in the protective outer cylinder 9 can keep the space 13 of the protective upper outer cylinder 11 hermetically closed, thereby preventing moisture from entering the protective tube 1. In addition, since the internal moisture can be adsorbed by the dehumidifier 21, the life of the aluminum sensor A can be extended. Specifically, based on the experimental results, in the aluminum sensor before improvement, the moisture in the air penetrated into the protective tube and the molten salt electrolyte inside deteriorated, and the life of the aluminum sensor was around 10 days. In contrast, the aluminum sensor A of the present embodiment can be used for up to about one month. In addition, with a conventional aluminum sensor, about 20
While the protection tube was cracked at a ratio of several pieces to the protection tube, the protection tube 1 was not cracked at all in the aluminum sensor of this example.

[0020]

[Effect of the Invention] The present invention is configured as described above.
Therefore, the following effects can be obtained. The composite of claim 1
According to the split-type aluminum sensor, good wettability with molten zinc
Outer protective tube near the liquid surface of the zinc bath by a protective lower outer cylinder had
Over the interface between the lower protective cylinder and the zinc bath.
Moisture from the air enters through the measurement port at the tip of the protection tube.
To prevent deterioration of the molten salt electrolyte in contact with the lead bath
The inside of the lower protective outer cylinder is almost sealed,
Can be shut off from the opening at the top of the protective tube through the air.
Aluminum to prevent moisture from entering
The service life of the sensor can be extended, and the protective bottom
The protective tube near the liquid level of the zinc bath is covered with the cylinder in a nearly adhered state.
And reduce the amount of zinc in the gap between the protection tube surface and the lower protection cylinder.
Because it can be suppressed,
The protection tube can be prevented from being damaged.

The composite type aluminum sensor according to claim 2
According to the protection by temperature rise by immersion in zinc bath
Non-return when the pressure of the upper outer cylinder rises and exceeds a certain pressure
Since the air is exhausted from the valve and the capillary to the outside air,
To prevent the molten salt electrolyte inside from blowing out into the zinc bath.
You can do it.

A composite type aluminum sensor according to claim 3.
According to the remove the moisture in the sealed protective upper cylinder
Can extend the life of the aluminum sensor
You can do it.

[Brief description of the drawings]

FIG. 1 is a principle diagram showing a partial cross-sectional state of a composite type aluminum sensor according to a typical embodiment.

FIG. 2 is a principle view of a partially sectional state of a composite type aluminum sensor before improvement.

[Explanation of symbols]

A Composite type aluminum sensor 1 Protection tube 2 Molten salt electrolyte 3 Electrode 4 Measuring port 5 Guide member 6 Temperature sensing part 7 Bath measuring electrode 8 Zinc bath 9 Protection outer cylinder 10 Closing member 11 Protection upper outer cylinder 12 Protection lower outer Cylinder 13 Space portion 14 Lower outer cylinder main body 15 Male thread 16 Connecting member 17 Seal packing 18 Female thread 19 Upper outer cylinder main body 20 Holding member 21 Dehumidifier 22 Hermetic seal 23 Cap 24 Check valve

Continuing on the front page (72) Inventor Hideo Kimura 1-5-24 Mishimae, Takatsuki City, Osaka Prefecture Inside the Takatsuki Plant of Yamasato Sangyo Co., Ltd. (72) Inventor Jun Jun Ueda 1-5-24 Mishimae, Takatsuki City, Osaka Prefecture Yamazato Sangyo Co., Ltd. Takatsuki Plant (56) Reference Jikaken 6-37757 (JP, U) (58) Fields surveyed (Int. Cl. ⁶ , DB name) G01N 27/30 G01N 27/416

Claims (3)

(57) [Scope of request for utility model registration] 1. Melting in a protective tube having a measuring hole at the tip
Position the salt electrolyte and electrode, and connect this electrode and
Connected to protect at least the liquid level when measuring
Cover the lower outer cylinder for protection around the pipe surface in a nearly in-contact state.
And place the upper protective outer cylinder with the upper end closed over the protective tube.
It is characterized by that the inside is kept almost closed by covering the part
Composite type aluminum sensor. 2. The protective outer cylinder is sealed,
2. A check valve or a thin tube is provided on the upper outer cylinder for use.
Composite aluminum sensor. 3. A method in which a dehumidifier is provided in the upper protective outer cylinder.
3. The composite type aluminum sensor according to claim 1 or 2.
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