JP3515045B2 - Bend tube and method of manufacturing the same - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bend pipe in which a wear-resistant welding layer is formed by spray-depositing a self-fluxing alloy on the inner surface of a steel pipe bend pipe, and more specifically, a bend pipe having a medium-diameter pipe or less. It is about pipes. The bend pipe according to the present invention is suitable for use in an industrial field such as a pipeline for conveying synthetic resin pellets.

[0002]

2. Description of the Related Art Conventionally, various measures have been taken to improve wear resistance of bend pipes used in pipelines for transporting powders and slurries. That is, there has been a method of overlay welding an abrasion resistant metal on the inner surface of the bend pipe for a long time. However, this method can perform overlay welding on the inner surface relatively easily with a large-diameter bend pipe, but cannot overlay welding on the inner surface with a medium- or small-diameter bend pipe having a diameter of 15 cm or less. Therefore, for a bend pipe having a medium diameter or less, there is a method shown in FIG. 4, for example, in order to facilitate overlay welding on the inner surface.
In this method, the tubular body 1 is cut in the direction of the center of its curvature circle to form several laterally divided divisions (21, 22 ...) And wear-resistant metal is applied to the inner surface of the obtained divisions. After overlay welding, the cut surfaces are re-welded and welded together to be integrated. However, in this method, a welded joint portion is also formed on the inner surface of the tube body that curves outward. The wear-resistant metal overlay layer on the inner surface of the welded part is insufficiently integrated or has a step. Moreover, the inner surface of the tube body that curves outward is the portion where the object passing through the bend tube collides most intensely. Therefore, when the welded portion is formed here, wear progresses from this portion, so that the life of the bend pipe cannot be sufficiently extended. Further, if the number of welding points for integrating a large number of divided portions increases, there is a problem that the manufacturing cost also increases. On the other hand, for example, as shown in FIG. 5, the tubular body 1 is cut perpendicularly to a plane including the central axis and along a curved surface including the central axis to separate into two divided portions, and inner surfaces of these divided portions are separated. There is a method of overlay welding a wear-resistant metal, and then by associating these divided parts with each other and welding them together. However, this method causes a large deformation due to the overlay welding of the wear-resistant metal, and requires a great deal of work to restore the original shape. Further, since the end portion is not a perfect circle, there is a problem that it is difficult to attach the flange. There is also a method of dividing the tubular body on a plane including the central axis of the tubular body. However, the bend pipe obtained by this method has the problem that the wear resistance of the bend pipe cannot be sufficiently improved because the welded portion is formed in the portion that curves outward.

In order to avoid such a problem, the bent steel pipe is not cut, for example, in Japanese Patent Publication No. 62-4598.
As shown in FIG. 6, a hardfacing layer 25 of wear-resistant metal is formed on the outside of the curved pipe body 1 by welding or casting, and the hardfacing layer is further covered with a coating layer made of reinforced plastic. A method of covering is disclosed. in this way,
Since the overlay welding of the wear-resistant metal is performed from the outside, the above-mentioned problems in overlay welding to the inner surface are solved. However, on the inner surface of the bend pipe obtained by this method, there is a bend pipe material with low hardness, so initial wear is severe, and abrasion powder generated at that time, powder particles or slurry passing through it. Etc. Therefore, depending on the material to be transported, contamination may be a problem. Further, in this method, since a protective layer of reinforced plastic is required on the outside of the hardfacing layer, there is a problem in that it takes time to process it.

[0004]

As described in the above-mentioned conventional technique, the conventional wear-resistant bend pipe has a problem in performance of the bend pipe, a problem in processing, a problem in manufacturing cost, and the like. Therefore, the problem to be solved by the present invention is to newly provide a bend pipe excellent in wear resistance which solves all the above problems, and a manufacturing method thereof.

[0005]

As a result of various studies to solve the above problems, the present inventors have an inlet and an outlet, and are curved with an inner surface communicating the inlet and the outlet. A bend pipe comprising a tubular body, wherein the tubular body is
Of the inlet and the outlet, which are perpendicular to a plane including the central axis of the tubular body and cut along a curved surface that includes the central axis of the tubular body and does not cross the inlet and the outlet. Of the first divided portion having at least one of, and the second divided portion, at least on the inner surface of the tube body that curves outward, a wear-resistant welding layer is formed by spray welding a self-fluxing alloy It has been found that this can be solved by using a bend pipe characterized in that, after forming the wear resistant weld layer, the first divided portion is welded in association with the second divided portion.

[0006] Further, it is preferable that the first divided portion is curved outward and has both an inlet and an outlet. Furthermore, it is preferable that the above wear-resistant welding layer is also formed at least at the edge portion of the inlet. The present invention will be described in more detail below.

FIG. 1 is a diagram showing a method of manufacturing a bend pipe according to an embodiment of the present invention. First, as shown in FIG. 1A, a curved tubular body 1 having an inlet 11 and an outlet 12 and having an inner surface communicating with the inlet and the outlet is prepared. In the present invention, the tubular body may be made of any material as long as it can spray-weld a self-fluxing alloy such as carbon steel, low alloy steel, and stainless steel.

Next, as shown in FIG. 1B, the tubular body 1
Is cut along a curved surface that is perpendicular to a plane including the curved central axis 13 of the tubular body, is along the central axis 13 of the tubular body, and further extends so as not to cross the inlet 11 and the outlet 12. As a result, the tubular body 1 is separated into a split portion 2 that curves outward and a split portion 3 that curves inward. The self-fluxing alloy can be sprayed onto the inner surfaces of the divided portions 2 and 3 at a suitable spraying angle described later. Since the above curved surface is perpendicular to the plane including the central axis 13 of the tubular body, and further includes the central axis 13 of the tubular body, the bend pipe according to the present invention has the most severe inner surface of the tubular body. No weld is formed in the outwardly curved portion that is the worn portion. Further, since the curved surface does not cross the inlet 11 and the outlet 12 of the pipe body 1, no weld is formed in the vicinity of the inlet and the outlet of the pipe body.

When the tube body 1 is cut according to the present invention, the tube body 1 is divided into any of the following forms. (1) A split portion 2 that has both ends of an inlet 11 and an outlet 12 and bends outward, and a split portion 3 that bends inward (see FIG. 2).
(B1)) (2) Dividing portion 2 that bends outward and dividing portion 3 that has both ends of the inlet 11 and the outlet 12 and that bends inward (see FIG. 2).
(B2) (3) Dividing portion 2 having an inlet 11 and curving outward, and dividing portion 3 having an outlet 12 and curving inward (see FIG.
3)) (4) Dividing portion 2 having an outlet 12 and curving outward, and dividing portion 3 having an inlet 11 and curving inward (see FIG.
4)) The present invention can achieve the intended purpose in any of the above cases, but it is preferable to divide as shown in FIG. 2 (b1) or FIG. 2 (b3). It is more preferable to divide as shown in FIG. 2 (b1).

In the present invention, the inlet 11 and the outlet 1
The length of the end including 2 is not particularly limited, but preferably the length of the end is 1/2 to 2 times the inner diameter of the tubular body. Thereby, the self-fluxing alloy can be sprayed at a suitable spraying angle described later.

Next, a wear resistant welding layer 4 is formed on the inner surfaces of the outwardly curved divided portion 2 and the inwardly curved divided portion 3 by spraying a self-fluxing alloy.

The method for forming the sprayed-on layer of the self-fluxing alloy is usually to spray a self-fluxing alloy powder on the surface of a steel material as a base material using a gas flame sprayer or a plasma sprayer to form a sprayed coating. The thermal spraying process, and then heating the coating and the base material to the melting temperature of the sprayed coating to eliminate the pores in the coating, densify it, and form a self-fluxing alloy welding layer that is metallurgically bonded to the base material. It consists of a welding process for forming. In the present invention, since this method is used, the deformation that occurs when forming the self-fluxing alloy weld layer can be made extremely small.
Further, since the self-fluxing alloy weld layer has excellent wear resistance and corrosion resistance, and has a uniform thickness and a smooth surface, it is possible to form a uniform and smooth wear resistant weld layer on the inner surface of the bend pipe.

In the present invention, as described above, the tubular body is divided into the outwardly curved divided portion and the inwardly curved divided portion. Therefore, the self-fluxing alloy is sprayed from the opening formed by this slit. You can In order to form a sound spray coating, a spray distance of 10 to 25 cm is usually required,
In addition, it is necessary to perform spraying at a spraying angle within 45 ° from the vertical direction with respect to the base metal surface, but it is possible to spray a self-fluxing alloy on the inner surfaces of these divided parts at a spraying distance and a spraying angle satisfying this condition. . The self-fluxing alloy powder used in the present invention can be selected from commercial products. Suitable self-fluxing alloy powders are powders of 0 to 20% Cr, 2 to 4% B, 2.5 to 5% Si, 0 to 1% C, 0 to 5% Fe, and the balance Ni. Is mentioned. Further, a powder obtained by mixing this powder with a tungsten carbide powder or a tungsten carbide-cobalt alloy powder may be used.

According to the present invention, it is sufficient that the wear-resistant welding layer made of a self-fluxing alloy is formed on at least the inner surface of the outwardly curved divided portion, but more preferably, the inwardly curved divided portion. Is also formed on the inner surface of the. In this case, the wear-resistant welding layer of the inwardly curved divided portion may be thinner than the wear-resistant welding layer of the outwardly curved divided portion. In addition, the wear-resistant welding layer of the divided portion that curves inward,
It may be made of a different material from the wear resistant welding layer of the divided portion that curves outward.

Further, as shown in an enlarged scale in FIG. 3, preferably, the wear-resistant welding layer 4 is also formed on the edge portion 14 of the pipe body, particularly on the edge portion 14 on the inlet 11 side of the pipe body. There is. Tube 1
It is possible to prevent wear from proceeding from the edge portion 14 of the.

Thereafter, the divided portion 2 curved outward is joined to the divided portion 3 curved inward with their cut surfaces aligned and welded together to obtain a bend pipe. According to the present invention, since the wear resistant welded layer is formed on the divided portions 2 and 3 with almost no deformation, welding work can be carried out by omitting the work of restoring the shape which was conventionally required. And, if necessary, flanges 6 are attached to both ends of the bend pipe for facilitating the connection with other straight pipes or bend pipes constituting the pipeline. According to the present invention, since the end portion of the bend pipe remains substantially circular, it is extremely easy to attach the flange 6 to this end portion.

[0017]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in more detail with reference to Examples. A stainless steel tube (JIS SUS304) having an outer diameter of 100 mm and an inner diameter of 83 mm and a radius of curvature of 500 mm was prepared as a tubular body. This stainless steel pipe has a straight pipe portion of 100 mm at both ends. And 80m from the inlet end of the stainless steel pipe
At m, cut from the inside of the curved pipe to the central axis of the tubular body, then cut the tubular body in half along this central axis, and bend the curved pipe at 80 mm from the end on the outlet side of the stainless steel pipe. I cut towards the inside of my body. A laser cutting method was used for this cutting. Then, the inner surfaces of the two divided portions obtained by cutting were blasted with alumina grit, and then a self-fluxing alloy was sprayed using a gas flame type powder spraying machine.

The self-fluxing alloy powder used in this example is Cr: 17%, B: 3.5%, Si: 4.5%,
C: 0.7%, Fe: 3.5%, Mo: 2.0%, C
u; 2.5%, Ni; JIS SF with the balance composition
It is a powder corresponding to Ni4 type, and its particle size is 45-10
It is 5 μm. A sprayed coating having a thickness of about 1.5 mm was formed on the inner surface of the divided portion curved outward, and about 0.7 mm on the divided portion curved inward. It was confirmed that the coating film sprayed to a predetermined thickness was a sound coating film without defects such as peeling and cracks. Next, the divided portion having the self-fluxing alloy sprayed on the inner surface was placed in an argon atmosphere electric furnace, the temperature inside the furnace was gradually raised and kept at 1050 ° C. for 30 minutes, then the power was turned off and the furnace was cooled. The thermal spray coating of the divided parts obtained by this welding process is melted in appearance and has a smooth surface condition.There is no peeling from the bend steel pipe as the base material, and sound wear resistance welding Formation of layers was observed. Further, here, the divided structure was cut and the internal structure was observed under a microscope.However, coarse pores and pinholes were not confirmed in the wear-resistant welding layer, and this welding layer was the same as the base material stainless steel pipe. It was confirmed that an alloy layer was formed between the two and metallurgically bonded. Furthermore, as a result of measuring the hardness of this welding layer, the Vickers hardness is Hv6.
50 to 750, it was found to possess the original hardness of this type of self-fluxing alloy spray deposited layer. Then, the cut surfaces of the two divided portions are brought into contact with each other to form a welding rod (JIS SU
S304) was used to perform the welding and joining 5 by TIG welding to integrate the divided portions. Before performing this welding, the cut surface was previously ground with a grinder to form a welding groove. Thereafter, the inwardly curved divided portions were fitted into the outwardly curved divided portions, and vices were used at both ends and the central portion of the inwardly curved divided portions to fasten both divided portions. At this time, a slight gap was confirmed in the central part due to the deformation of both divided parts, but it was possible to easily bring them into close contact with each other by tightening the vise. After that, flanges 6 are attached to both ends of the stainless steel pipe.
Welded.

The thus-obtained bend pipe was used in a pipeline for transporting nylon resin pellets containing 30 to 50% of glass fiber for 3 years or more, and noticeable wear was confirmed on the inner surface of the bend pipe. Was not done. In addition,
Since the life of a bend steel pipe only made of stainless steel (JIS SUS 304) not having a self-fluxing alloy spray-deposited layer on its inner surface is about 6 months to 1 year, the bend pipe according to the present invention has a life of 3 times or more. It turned out that it can be extended 6 times.

[Brief description of drawings]

FIG. 1 is a diagram showing a method for manufacturing a bend pipe of the present invention.

FIG. 2 is a view showing various methods of dividing a pipe body according to the present invention.

FIG. 3 is an enlarged view of an end of a tube body according to the present invention.

FIG. 4 is a diagram showing a method for manufacturing a bent steel pipe according to a conventional technique.

FIG. 5 is a diagram showing a method for manufacturing a bent steel pipe according to a conventional technique.

FIG. 6 is a diagram showing a method for manufacturing a bend steel pipe according to a conventional technique.

[Explanation of symbols]

1 Bend tube 2 first division 3 second division 4 Wear resistant welding layer 5 welds 6 flange

─────────────────────────────────────────────────── ─── Continuation of the front page (56) Reference JP-A-11-291034 (JP, A) JP-A-4-158919 (JP, A) JP-A-3-138075 (JP, A) JP-A-60- 234193 (JP, A) Actually open 60-97490 (JP, U) Actually open 54-31920 (JP, U) JP 62-4598 (JP, B1) (58) Fields investigated (Int.Cl. ⁷ , DB name) F16L 41/00-49/00

Claims (6)

(57) [Claims] 1. A bend pipe comprising a curved pipe body having an inlet and an outlet and having an inner surface communicating with the inlet and the outlet, the pipe body including a central axis of the pipe body. At least one of the inlet and the outlet is divided into two by a curved surface that is perpendicular to the plane and is along the central axis of the tubular body, and that further extends so as not to cross the inlet and the outlet. The first divided portion having, and the second divided portion, at least a portion of the inner surface of the tubular body that is curved to the outside, a wear-resistant welding layer is formed by spraying a self-fluxing alloy. The bend pipe is characterized in that after the wear-resistant welding layer is formed, the first divided portion and the second divided portion are joined and welded to each other. 2. The bend pipe according to claim 1, wherein the first divided portion is curved outward and has both the inlet and the outlet. 3. The bend pipe according to claim 1, wherein the wear-resistant welding layer is further formed on at least an edge portion of the inlet among the inlet and the outlet. 4. A method of manufacturing a bend pipe comprising a curved pipe body having an inlet and an outlet and having an inner surface communicating with the inlet and the outlet, wherein the pipe body is provided with a center of the pipe body. At least one of the inlet and the outlet is cut by a curved surface that is perpendicular to a plane including an axis and that is along the central axis of the tubular body and that further extends so as not to cross the inlet and the outlet. Is divided into a first divided portion and a second divided portion, and a wear-resistant welding layer is formed by spray-welding a self-fluxing alloy on a portion of the inner surface of the tubular body which is curved outward at least. Then, after that, the method for producing a bend pipe is characterized in that the first divided portion and the second divided portion are brought into association with each other and welded. 5. The method for manufacturing a bend pipe according to claim 4, wherein the first divided portion is curved outward and has both the inlet and the outlet. 6. The bend pipe according to claim 4, wherein the wear-resistant welding layer is also formed on at least an edge portion of the inlet of the inlet and the outlet.