KR200266828Y1 - Elbow pipe with reinforcement - Google Patents

Abstract

The present invention relates to an elbow pipe provided with a reinforcing member, and more particularly, to an elbow pipe that can be easily exchanged to the part that can be damaged by the transmission of the impact load and frictional force by the transfer.

The elbow pipe may further include: a curved pipe portion having an open portion formed in a portion of the outer curved portion having a large radius of curvature; A reinforcing member covering the opening; Combination means for binding the curved portion and the reinforcing member; is configured to include.

The present invention configured as described above is formed with a removable reinforcement member that generates cracks or through-holes caused by the creation and expansion of wear grooves due to the conveying material. When the elbow pipe is broken, only the reinforcement member is easily replaced. It can be used to save maintenance time and cost.

In addition, by applying the alloy iron containing Cr, Ni, Mn excellent in wear resistance and corrosion resistance to the reinforcing member, the equipment can be used for a long time, thereby reducing the cost, and also reduce the use of metal resources It is possible to provide eco-friendly products.

Description

ELBOW PIPE WITH REINFORCEMENT

The present invention relates to an elbow pipe provided with a reinforcing member, and more particularly, to an elbow pipe that can be easily exchanged to the part that can be damaged by the transmission of the impact load and frictional force by the transfer.

In general, elbow pipes angled to 45 °, 60 °, 90 °, etc. are used in order to change the moving direction of the transporting material in the process of transferring raw materials such as solid, liquid, and gas.

The material conveyed in one direction reaches the elbow pipe and the direction of travel thereof is changed. That is, some of the conveying material introduced into the elbow pipe is discharged after striking the inner surface of the elbow pipe in a steep slope. The inner surface of the elbow pipe in which the conveying material collides is abraded by the load and friction of the conveying material, thereby forming a wear groove. Initially, the inner surface of the conveying material and the elbow pipe collide with a predetermined inclination, and the formation of the wear groove proceeds slowly. However, when a wear groove of a predetermined size or more is formed, the conveying material and the wear groove collide at a right angle. At this time, the impact load of the conveying material is largely transmitted to the elbow pipe, and the wear groove becomes more active, as well as cracks due to the impact.

The transfer material leaks due to the formation of the through hole or the crack formed by the expansion of the groove, or the pressure inside the transfer pipe is lowered, thereby lowering the transfer capacity.

In order to solve the above problem, a method of forming a reinforcing surface 71 which thickens the surface of the elbow pipe 70 to which an impact is transmitted by giving an eccentricity to the pipe itself as shown in FIG. 6A, and is shown in FIG. 6B. A method of adding a reinforcing member 81, which is a metal plate, to the outer surface of the elbow pipe 80 to which the shock is transmitted is used.

In the above two methods, the surface of the elbow pipe to which the impact load is transmitted is formed to be thicker than the other surfaces, and the problem of breakage due to the formation of through holes due to cracking or abrasion due to the impact load can be solved to some extent, but the elbow pipe when broken There is a disadvantage that needs to be replaced with a cylinder.

The present invention is devised to solve the above problems,

In the elbow pipe, the concentrated wear portion is formed of a reinforcement member that is separable from the bent portion, and thus, it is possible to reuse the reinforcing member by replacing the reinforcing member in case of breakage, thereby providing a product that can reduce installation costs.

1 is a cross-sectional view showing an embodiment of the present invention.

2 is an exploded cross-sectional view of FIG.

3 is a cross-sectional view showing a wear process of FIG.

Figure 4 is a cross-sectional view showing another embodiment of the present invention.

Figure 5 is a cross-sectional view showing another embodiment of the present invention.

Figure 6a is a cross-sectional view showing a conventional eccentric elbow pipe.

Figure 6b is a cross-sectional view of the elbow pipe attached to a conventional reinforcing member.

<Explanation of symbols for the main parts of the drawings>

10: elbow pipe 20: curved pipe portion 30: reinforcing member

40: coupling means 50: gasket 21: opening

22: engaging jaw 23: locking jaw 24: flange

31: end 35: wear groove 36: crack

41: bolt 42: cap 43: hinge

220, 311: coupling grooves 221, 310: coupling holes

70, 80: conventional elbow pipe 71: reinforcing surface

81: conventional reinforcing member M: transfer material

Elbow pipe provided with a reinforcing member of the present invention for achieving the above object,

An elbow pipe, comprising: a curved pipe portion having an open portion formed in a portion of an outer curved portion having a large radius of curvature; A reinforcing member covering the opening; Combination means for binding the curved portion and the reinforcing member; is configured to include.

The elbow pipe is a joint pipe that connects straight pipes installed at different angles to each other, and generally refers to a remarkably small radius of curvature. In the present specification, the elbow pipe refers to a tube body having a constant angle formed regardless of the radius of curvature. In addition, the connection with the other pipe may use a flange, may be coupled to form a thread on each pipe.

The opening may be a through hole positioned at a portion at which the impact load is transmitted from the curved portion, and may be formed in a manufacturing process, or may be formed by breaking an elbow pipe used in the existing process.

And, the reinforcing member is molded to be fitted to the opening of the curved pipe portion. The material of the reinforcing member may be formed of the same material as the curved portion, but may be molded of alloy steel containing Cr, Ni, Mn, etc. to improve wear resistance and increase strength.

In addition, the outer circumferential surface of the opening formed in the curved portion may be further formed with a projection of "I" shape or "" a "shape.

㉠ When the protrusion is formed as a coupling jaw of the "I" shape, the bolt can be used as a coupling means. And by adjusting the length of the coupling jaw short or long can be coupled to the bolt to be coupled in the axial direction or parallel to the axis of the elbow pipe. In this case, a groove into which the bolt can be inserted should be formed in the coupling jaw, and a coupling hole, which is a through hole, should be formed in the reinforcing member which is inserted into the groove.

㉡ When the protrusion is formed as a "ja" of the locking jaw can be used as a cap coupling means. The cap may cover the reinforcing member and the locking jaw together, and may be installed at the top, bottom, left, or right, up, down, left, and right sides of the reinforcing member. In addition, the cap may be used as a separate object that is separated separately, it may be used by hinged to the reinforcing member.

In addition, a gasket made of a synthetic resin or metal film may be inserted between the curved portion and the reinforcing member to seal the inside thereof.

Hereinafter, the present invention will be described in detail with reference to the drawings.

Elbow pipe of the present invention is composed of a bent portion, a reinforcing member, a coupling means.

As shown in FIG. 2, the curved pipe part 20 is a pipe body bent at a predetermined angle, and flanges 24 are formed at both ends thereof. That is, the inside of the curved portion 20 is formed with a space for transferring the material, the open portion 21 is formed in the outer surface having a large radius of curvature of the curved portion through which one section penetrates to the outside. And, on the outer circumferential surface of the opening portion 21, the engaging jaw 22 protruding outwardly perpendicular to the axis of the tube body is formed. The coupling groove 220 is formed on the upper surface of the coupling jaw so that the bolt 41, which is the coupling means 40, can be inserted, and the inner surface of the coupling groove 220 may be engaged with the bolt 41. Threads are formed.

In addition, the reinforcement member 30 detachably inserted into the opening portion 21 has a shape of a plate convex upwardly, and a locking end 31 is formed on the outer surface to be caught when inserted into the opening portion 21. It is. The engaging end 310 is also formed in the engaging end 310 in the direction perpendicular to the axis of the bent portion, the bolt 41 as a coupling means is inserted to be coupled to the coupling groove 220 of the bent portion.

As shown in FIG. 3, the reinforcing member 30 was bolted to the main wear portion of the elbow pipe.

Some of the conveying material M introduced into the curved portion 20 is discharged after hitting the surface on which the reinforcing member 30 is installed at a steep slope of the curved portion 20. The inner surface of the reinforcing member hit by the conveying material M forms a wear groove 35 by the load and friction of the conveying material, and when the wear groove 35 is further developed, a crack 36 is generated and broken. Alternatively, through-holes are formed, and the pressure inside the high pressure part is discharged to the outside, thereby degrading the function of the transfer pipe. When the reinforcing member 30 is damaged in this manner, the bolt that is the coupling means 40 may be dismantled, and the damaged reinforcing member may be removed to install a new reinforcing member.

Example 1

As shown in Figure 1, the outer circumferential surface of the opening formed in the curved pipe portion 20 is formed with a coupling jaw 22, which is a projection of the "I" shape, the bolt 41 is used as a coupling means. The bolt coupling is made in a direction perpendicular to the axis. Therefore, the coupling jaw 220 is formed in the coupling jaw 22, and the coupling hole 310 is formed in the reinforcing member 30. In the figure, the gasket 50 is used to seal the inside, but the gasket may be omitted.

Example 2

As shown in Figure 4, the outer circumferential surface of the opening portion 21 formed in the curved pipe portion 20 is formed with a coupling jaw 22, which is a projection of the "I" shape, using a bolt 41 coupling have. As the bolt coupling is made in the same direction as the shaft, the length of the coupling jaw 22 is formed longer than that of the first embodiment. In addition, since the bolt coupling is made to the side of the coupling jaw 22, the coupling jaw 22 is formed in the coupling hole 221, the coupling groove 311 is formed in the reinforcing member (30).

Example 3

As shown in Figure 5, the outer circumferential surface of the opening portion 21 formed in the curved pipe portion 20 is formed with a locking projection 23 is a projection of the "b" shape. Cap 42 is used as a coupling means, one side of the cap is coupled to the compensation member 30 by a hinge 43. One side of the cap 42 is inserted into the groove formed by the locking jaw 23 to hold the locking jaw 23 and the reinforcing member 30 of the curved pipe portion 20 simultaneously.

The accompanying drawings and the description of the drawings are only examples for describing the present invention, and appropriate modifications that can be improved by those of ordinary skill in the art with reference to the present drawings and detailed description also fall within the scope of the present invention. It will be natural.

The elbow pipe provided with the reinforcing member of the present invention is formed of a detachable reinforcing member having a portion where cracks and through holes generated by the generation and expansion of the wear groove due to the conveying material are generated.

Therefore, when the elbow pipe is broken, only the reinforcing member can be easily replaced and used, thereby saving maintenance time and cost.

In addition, by applying the alloy steel containing Cr, Ni, Mn excellent in wear resistance and corrosion resistance to the reinforcing member, the equipment can be used for a long time, thereby reducing the cost and reducing the use of metal resources Eco-friendly products can be provided.

Claims (4)

In the elbow pipe, A curved pipe portion having an open portion formed in a portion of the outer curved portion having a large radius of curvature; A reinforcing member covering the opening; Elbow pipe provided with a reinforcing member, characterized in that it comprises a; coupling means for binding the main body and the reinforcing member. The method of claim 1, On the outer circumferential surface of the opening part is formed a coupling jaw protruding outward, the coupling jaw is formed in the coupling jaw is formed from the protruding surface to the inside so that the bolt is inserted, the surface of the reinforcing member and the ocean Elbow pipe provided with a reinforcing member, characterized in that the through-hole coupling hole is formed. The method of claim 1, Elbow pipe with a reinforcing member is provided on the outer circumferential surface of the opening portion is formed with a "ja" protruding jaw protruding to the outside, the cap is hinged to one side of the reinforcing member is installed on the locking jaw. The method according to any one of claims 1 and 3, An elbow pipe having a reinforcing member, characterized in that the inside is sealed by inserting a gasket between the curved portion and the reinforcing member.