JP2023180326A - Hot dip galvanizing metal tag repeated use method by stainless steel foil wrapping - Google Patents

Abstract

To provide a repeated use method of a hot dip galvanizing identification metal tag whose endurance is enhanced and which can be reused by wrapping a heat resistant metal tag in a metal foil and protecting the metal tag so that no acid treatment or plating processing is not performed.SOLUTION: A metal tag which identifies pipe journalizing information used for hot dip galvanizing with a circular or elliptical tag shape or an engraved mark on a tag surface is wrapped in metal foil, the wrapped metal tag is charged in a hot dip galvanizing tank, the metal tag wrapped in the metal foil is taken out of the hot dip galvanizing tank, and the metal tag is repeatedly used after sorting out pipes.SELECTED DRAWING: None

Description

The present invention relates to a metal tag attached to a steel pipe to be plated for use in sorting the steel pipe to be plated, and relates to a method for repeatedly using a zinc hot-dip plated metal tag by wrapping the metal tag in stainless steel foil so that the metal tag can be reused.

Conventionally, steel pipes to be painted or galvanized are sorted by attaching heat-resistant IC tags to them before processing, and reading information from the IC with a reader after processing.
However, although the IC tag has a heat resistance temperature of 200 degrees, the plating bath temperature during processing exceeds 200 degrees, making it unusable, and it also has low durability, making it difficult to reuse it multiple times.
Therefore, the inventor of the present application has developed a method to make the tags heat resistant by making them metal, and to protect them from being acid-treated or plated by wrapping the metal tags in metal foil. It is designed to be easy to use and reusable.

Regarding the technique of wrapping and protecting this type of metal tag, for example, the technique disclosed in Japanese Patent Application Laid-Open No. 7-14244 is known.
The disclosure of JP-A No. 7-14244 relates to the title of the invention "information recording medium" and states that "a simple writing device is used to record on an amorphous material that is highly confidential and capable of safely retaining recorded contents. ``Providing an information recording medium that can be realized by using a writing method that does not rely on crystalline metallization'' (see paragraph number 0008 of the specification of the same publication) states that ``an information recording medium disposed on a non-magnetic substrate An information recording medium comprising a ferromagnetic layer made of a band-shaped amorphous material and having a magnetic effect, and a non-magnetic cover layer for fixing the magnetic layer, wherein the ferromagnetic layer is partially added. By configuring it so that the magnetic properties are changed by pressure deformation, and the electrical signals generated in the pressure-treated portion are used as recorded information (as described in claim 1 of the same publication). ), ``...By pressurizing a portion of an amorphous ferromagnetic metal tag to change its properties as a magnetic material, it is possible to create an information recording medium that is easy to record at a low cost. Because information is stored through processing, it is possible to record data that is resistant to changes in the external usage environment.The recorded contents can be read out stably and reliably using a simple device.'' (Paragraph of the specification of the same publication) (See number 0017).

FIG. 6 is a perspective view showing an example of the structure of an information recording medium according to the disclosed invention attached as FIG. 1 in Japanese Patent Application Laid-Open No. 7-14244. In FIG. The substrate, 103 is an amorphous ferromagnetic metal tag, and 104 is a cover layer (the code has been changed to three digits by the applicant in order to clarify that it is a prior art).
However, the one disclosed in Japanese Patent Application Laid-Open No. 7-14244 shown in FIG. 6 is an amorphous ferromagnetic metal tag made of a band-shaped amorphous material placed on a non-magnetic substrate, which is partially deformed by pressure. The electric signal generated in the pressure-treated portion of the ferromagnetic layer is used as recorded information, and the non-magnetic cover layer 104 is used, and the present invention relates to its purpose and use. The effects are completely different.

The present invention was discovered by the inventor through trial and error, and includes a metal tag for identifying steel pipes to be treated that is simultaneously put into a plating tank for use in sorting the pipes to be treated by hot-dip galvanizing. This allows the metal tag to be used repeatedly in a simple manner by preventing it from being plated.

Japanese Patent Application Publication No. 7-14244

The present invention makes the tag used for zinc hot-dip plating to specify the pipe journal information by making it heat resistant by making it into a metal tag with a circular or oval tag shape or with an engraving on the tag surface, and the metal tag is made of metal foil. The purpose of the present invention is to provide a method for repeatedly using a hot-dipped zinc-plated identification metal tag, which is made durable and reusable by wrapping the tag in plastic wrap and protecting the tag from acid treatment or plating.

In order to solve the above-mentioned problem, the invention according to claim 1 of the present application provides a method for repeatedly using zinc hot-dip plated metal tags by wrapping with stainless steel foil, in which pipe journal information used for zinc hot-dip plating is transferred to circular or oval tag shapes or The metal tag, which is identified by marking on the tag surface, is wrapped in metal foil, the wrapped metal tag is placed in a zinc hot-dip plating tank, the metal tag wrapped in metal foil is taken out from the zinc hot-dip plating tank, and the pipes are sorted. It is characterized in that the metal tag is used repeatedly afterwards.

With the above solution, by wrapping the metal tag with metal foil, the metal tag is not subjected to zinc hot-dip plating, so it can be used repeatedly semi-permanently.

FIGS. 1(a) and 1(b) are diagrams showing examples of metal tags for carrying out the method of repeatedly using plated metal tags by wrapping with stainless steel foil according to the present invention. FIGS. 2(a) to 2(d) are diagrams schematically showing wrapping of the metal tag 1 with the stainless steel foil 2. FIG. 3 is a diagram schematically showing how the wrapping completion foil 2e is attached to the flange hole fixture 5a instead of the attachment wire 5 shown in FIG. 2(d). FIG. 4 is a diagram schematically showing how the flange hole fixture 5a is attached to a steel pipe to be hot-dipped with zinc, and the pipe is introduced into a plating tank and taken up from the plating tank. FIG. 5 is a photograph taken of the metal tag taken out after the above experiment. FIG. 6 is a perspective view showing an example of the structure of an information recording medium according to the disclosed invention attached as FIG. 1 to JP-A-7-14244.

An embodiment of the method for repeatedly using plated metal tags by wrapping with stainless steel foil according to the present invention will be described in detail with reference to the drawings and the like.

(Prerequisite metal tag and stainless steel foil)
FIGS. 1(a) and 1(b) are diagrams showing examples of metal tags for carrying out the method for repeatedly using plated metal tags by wrapping stainless steel foil according to the present invention. 1 is a circular metal tag, 2 is a stainless steel foil, and 3a and 3b are temporary display boards 3a and 3b that indicate the thickness of the stainless steel foil 2 attached as a mark for experimental use to demonstrate the method of this example, which will be described later. , FIG. 1(a) shows that a 0.05 mm thick stainless steel foil 2 was used, and FIG. 1(b) shows that a 0.02 mm thick stainless steel foil 2 was used.
Note that the circular metal tag 1 used in the method of this embodiment is a metal tag made of stainless steel and has an alphanumeric character A engraved thereon with a diameter of 12 mm x 0.5 mm and a engraved depth of 0.05 mm.

In addition, the stainless steel foil 2 in the example shown in FIG. 1(a) is 100 mm x 60 mm x 0.05 mm thick, and in the example shown in FIG. Use foil 2.
Moreover, FIGS. 2(a) to 2(d) are diagrams schematically showing wrapping of the metal tag 1 with the stainless steel foil 2, and in FIGS. 2b is the lower half of the stainless steel foil 2, 2c1 and 2c2 are left and right bent portions, 2d is an upper bent portion, 5 is a mounting wire, and 6a and 6b are staples. In addition, the code|symbol 2e is the wrapping completion stainless steel foil.

As shown in FIGS. 2(a) to 2(d), bend the lower half 2b of the 100 mm x 60 mm stainless steel foil 2 toward you and insert the metal tag 1 inside (omitted from FIG. 2(b) onwards). , further, bend the left and right sides 2c1 and 2c2 of the lower half 2b towards the front and bend them towards the back, and finally fold the upper parts 2d of a predetermined width of the left and right sides 2c1 and 2c2 which have been folded towards the back towards the front. After bending and sandwiching the mounting wire 5 between them, the wrapped stainless steel foil 2e is securely fastened with staples 6a and 6b and wrapped.

FIG. 3 is a diagram schematically showing how the wrapping completion foil 2e is attached to the flange hole fixture 5a in place of the attachment wire 5 shown in FIG. , which is a flange hole mounting tool that replaces the mounting wire 5.
Furthermore, FIG. 4 is a diagram schematically showing how the flange hole fixture 5a is attached to a steel pipe to be hot-dip galvanized, put into a plating tank, and taken up from the plating tank. This is a wrapped stainless steel foil fixed to a fixture 5a, and a metal tag 1 (not shown) is wrapped inside. Reference numeral 7 indicates a steel pipe to be hot-dipped with zinc, and 8 indicates a plating tank.
As shown in FIG. 4, the wrapped stainless steel foil 2e is attached to the steel pipe 7 to be treated via the flange hole fitting 5a, with the metal tag 1 encapsulated therein, and placed into the plating bath 8. After the zinc hot-dip plating of the steel pipe 7 to be treated is completed, it is taken out from the plating bath 8 and the plating process is completed.

(How to repeatedly use zinc hot-dipped metal tags with stainless steel foil wrapping)
As described above, the method of repeatedly using a zinc hot-dip plated metal tag by wrapping it in stainless steel foil according to the method of this embodiment involves folding and wrapping a metal tag 1 of a predetermined shape or surface imprinted on a stainless steel foil 2 of a predetermined thickness and size; The folded stainless steel foil 2 is put into the plating tank 8 through the flange hole fitting 5a onto the steel pipe 7 to be galvanized and hot-dipped, and after the plating process is completed, it is taken out from the plating tank 8.

The inventor of the present application verified through experiments whether or not the purpose and effect of the present invention can be achieved with respect to the metal tag obtained by this method after completion of the plating process.
The experiment was conducted on April 12, 2020 at Galva Industries (location: 962-59 Hojo, Saijo City, Ehime Prefecture), where a stainless steel metal tag (Φ12 mm x 0.5 mm) was attached to a 100 mm x 60 mm x 0.05 mm thick The metal tag was wrapped with stainless steel foil as described above and placed in a zinc hot-dip plating bath heated to 200 degrees for 2 minutes, and then taken out and evaluated to see if the surface of the metal tag had been plated.

FIG. 5 is a photograph taken of the metal tag taken out after the above experiment.
In the photo in Figure 5, there are two circular metal tags on the right, and stainless steel foil and wire taken out from the plating bath are on the left.
As shown in the photo in Figure 5, the metal tag taken out after the plating process was discolored by the acid from the zinc hot-dip plating, but the shape was recognizable, and there was no sign that the markings were buried. We confirmed that the same metal tag can be used repeatedly semi-permanently by wrapping it in stainless steel foil.
According to the evaluation confirmation shown in Fig. 5, the method of repeatedly using plated metal tags by wrapping them with stainless steel foil according to the present invention can be used semi-permanently by wrapping the metal tags with metal foil, since the metal tags are not subjected to zinc hot-dip plating. It is verified that it can be used repeatedly.

The present invention relates to a metal tag attached to a steel pipe to be plated for use in sorting the steel pipe to be plated, and is applied to a method for repeatedly using a zinc hot-dip plated metal tag by wrapping the metal tag in stainless steel foil so that the metal tag can be reused.

1 Metal tag 2 Stainless steel foil 2b Lower half of stainless foil 2c1, 2c2 Left and right bent portions of stainless foil 2d Upper bent portion 2e Wrapping completed stainless steel foil 3a, 3b Temporary display plate showing the thickness of stainless steel foil 2 5 Mounting wire 5a Flange Hole fittings 6a, 6b Stapler 7 Steel pipe to be zinc hot-dipped plated 8 Zinc hot-dip plating tank 101 Information recording medium 102 Substrate 103 Amorphous ferromagnetic metal tag 104 Cover layer

In order to solve the above problem, the invention according to claim 1 of the present application provides a method for repeatedly using a zinc hot-dip plated metal tag by wrapping with stainless steel foil, in which pipe journal information used for zinc hot-dip plating is transferred to a circular or oval tag shape or a tag. A metal tag made of stainless steel , which is identified by an engraving on the surface, is wrapped with stainless steel metal foil in such a way that the tag comes into contact with the acid from the zinc hot-dip plating that penetrates , and the wrapped metal tag is placed in a zinc hot-dip plating tank. The method is characterized in that a metal tag wrapped in metal foil is taken out from a zinc hot-dip plating bath and the metal tag is repeatedly used after pipe sorting.

FIG. 5 is a photograph taken of the metal tag taken out after the above experiment.
In the photo in Figure 5, there are two circular metal tags on the right, and stainless steel foil and wire taken out from the plating bath are on the left.
As shown in the photo in Figure 5, the metal tag taken out after the plating process is discolored due to the acid from the zinc hot-dip plating, but the shape can be recognized, and there is no sign that the stamp is buried. It was confirmed that the same metal tag could be used repeatedly semi-permanently by wrapping it in stainless steel foil.
According to the evaluation confirmation shown in Fig. 5, the method of repeatedly using plated metal tags by wrapping them with stainless steel foil according to the present invention can be used semi-permanently by wrapping the metal tags with metal foil, since the metal tags are not subjected to zinc hot-dip plating. It is verified that it can be used repeatedly.

Claims (1)

The pipe journal information used for zinc hot-dip plating is specified by a circular or oval tag shape or by marking on the tag surface. Wrap the metal tag in metal foil, put the wrapped metal tag into a zinc hot-dip plating tank, and then A method for repeatedly using a zinc hot-dip plated metal tag by wrapping it in stainless steel foil, characterized by taking out a metal tag wrapped in metal foil from a hot-dip plating tank and repeatedly using the metal tag after sorting pipes.

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