KR20210151592A - Connecting structure and method for pipe - Google Patents

Abstract

The present invention relates to a pipe connection structure, which can reduce the number of parts and work man hours, and to a method thereof. The pipe connection structure comprises: a first flange fixed to one end of a first pipe; a second flange; a plurality of first seating brackets; a plurality of second seating brackets; a plurality of first reverse rotation preventing rings; a plurality of second reverse rotation preventing rings; a plurality of bolts; and a plurality of nuts.

Description

Pipe connection structure and method

The present invention relates to a pipe connection structure and method.

In general, the connection of the pipe is connected by being in close contact with the flange provided at each end by the fastening of the bolt and the nut. However, as the bolt and the nut are arbitrarily loosened by an external force or the like, a gap may be formed between the closely attached flanges. In order to solve such a problem, a technique for preventing loosening of bolts and nuts has been proposed. Republic of Korea Patent No. 2051059 (name: pipe fixing member, hereinafter referred to as 'prior art literature') discloses a technology for preventing loosening of bolts and nuts in a pipe connection structure according to the prior art.

Referring to the prior art literature, in the prior art, the outer ring 210 is formed through the flange coupling plate 210 disposed on the other surface of the pipe flanges 11 and 21, each of which one surface is in close contact with each other, and the outer ring 210 is formed. The ring 210 and the bolt 30 and the nut 40 penetrating the bolt insertion holes 13 and 23 of the pipe flanges 11 and 21 are fastened, whereby the pipe flanges 11 and 21 are in close contact. . And in the prior art, a plurality of external teeth (221a) is provided on the inner circumferential surface of the outer ring 210, the head of the bolt 30 and the nut 40 of the inner insertion tube (223a) formed in the cap (223) It is fixed in engagement with the inner teeth (223b), the outer peripheral surface of the inner insertion tube (223a) is provided with a reverse rotation prevention projection (223c). In this prior art, in the direction in which the bolt 30 and the nut 40 are fastened, the anti-reverse projection 223c rides over the external teeth 221a so that the cap 223 is rotatable, but vice versa. In the direction in which the bolt 30 and the nut 40 are loosened, the reverse rotation prevention protrusion 223c cannot ride over the external teeth 221a in the direction in which the bolt 30 and the nut 40 are loosened, so the cap 223, substantially the bolt 30 and the nut (40) rotation is prevented.

However, the following problems occur in the structure for preventing loosening of bolts and nuts in the pipe connection structure according to the prior art.

First, in the prior art, the flange coupling plate 210 on which the outer ring 210 is formed is formed separately from the pipes 10 and 20 and the pipe flanges 11 and 21 to surround the pipes 10 and 20. placed in a manner However, when the flange coupling plate 210 flows with respect to the pipes 10 and 20 , it may adversely affect the fastened bolt 30 and the nut 40 . In the prior art literature, in order to prevent such a problem, the configuration for fixing the relative position of the flange coupling plate 210 with respect to the pipe 10, 20, that is, the coupling plate fixing member 230 is added. Therefore, according to the prior art, the number of parts is increased as well as the number of work is increased.

In addition, in the prior art, the external teeth (221a) and the reverse rotation prevention projection (223c) is engaged in a direction perpendicular to the direction in which the bolt 30 and the nut 40 are fastened. Therefore, in the prior art, the outer ring 210 and the cap ( As the alignment of the 223 and the alignment of the bolt 30 and the nut 40 and the cap 223 are required, the working process is complicated.

On the other hand, in the related art, by engaging the bolt 30 and the nut 40 with the inner teeth 223b, the bolt 30 and the nut 40 and the cap 223 are aligned, and the cap 223 is a flange coupling plate. By being inserted into the cap insertion groove 221b formed in the 210, the outer ring 210 and the cap 223 are aligned. Therefore, in the prior art, when any one of the above alignments is not accurately achieved due to the dimensions or work errors of the parts, it is practically impossible to fasten the bolt 30 and the nut 40, and ultimately the pipe 10 ( 20) is not connected.

Republic of Korea Patent No. 2051059 (Name: pipe fixing member)

The present invention is to solve the problems caused by the prior art as described above, and an object of the present invention is to provide a pipe connection structure and method configured to reduce the number of parts and work man-hours.

Another object of the present invention is to provide a pipe connection structure and method configured to be able to work more simply.

Another object of the present invention is to provide a pipe connection structure and method configured to be more simply corrected.

One aspect of the pipe connection structure according to an embodiment of the present invention for achieving the above object is a first flange fixed to one end of the first pipe; a second flange fixed to one end of a second pipe connected to the first pipe and contacting one surface of the first flange with one surface thereof; a plurality of first seating brackets respectively seated on the other surface of the first flange and provided with a plurality of first locking protrusions on one surface thereof; a plurality of second seating brackets respectively seated on the other surface of the second flange and provided with a plurality of second locking protrusions on one surface thereof; A plurality of first reverse rotation prevention protrusions each seated on one surface of the first seating bracket provided with the first locking protrusion, and selectively riding over the first locking protrusion in a state engaged with the first locking protrusion, respectively A plurality of first anti-reverse rotation rings provided; A plurality of second anti-reverse rotation prevention protrusions each seated on one surface of the second seating bracket provided with the second locking protrusion, and selectively riding over the second locking protrusion in a state engaged with the second locking protrusion, respectively A plurality of second anti-reverse rotation rings provided; a plurality of bolts installed through the first and second flanges and the first and second mounting brackets, and respectively coupled to the first anti-reverse rotation ring; and a plurality of nuts fastened to the tips of the bolts passing through the first and second flanges and the first and second mounting brackets, and respectively coupled to the second anti-rotation ring. Including, wherein the first and second anti-reverse protrusions, when the first and second anti-reverse rings rotate in a direction in which the bolt and nut are fastened with respect to the first and second seating brackets, , when riding over the first and second locking projections, respectively, and the first and second anti-reverse rings rotate in a direction in which the bolts and nuts are loosened with respect to the first and second seating brackets, the The first and second locking projections are engaged respectively.

In one aspect of the embodiment of the pipe connection structure according to the present invention, in a state in which the first and second locking projections and the first and second anti-reverse rotation prevention projections are engaged with each other, parallel to one surface of the first and second seating brackets Relative movement of the first and second anti-reverse rings with respect to the first and second seating brackets in one direction is allowed, respectively.

In one aspect of the embodiment of the pipe connection structure according to the present invention, a plurality of first and second insertion holes are respectively formed in the first and second flanges, and the first and second mounting brackets have the first and First and second communication holes respectively communicating with the second insertion hole are formed, respectively, and in the first and second anti-reverse rotation rings, first and second communication holes communicating with any one of the plurality of first and second communication holes are formed. Two communication openings are respectively formed, and the bolt has a body of the first communication opening, a first communication hole, a first insertion hole, and a second insertion hole in a state in which the head is coupled to the first reverse rotation prevention ring. The ball, the second communication hole, and the second communication opening are sequentially passed through, and is fastened to the nut coupled to the second anti-reverse rotation ring.

In one aspect of the embodiment of the pipe connection structure according to the present invention, in the first and second flanges, a plurality of first surfaces defined by recessing a portion of each other surface so that the first and second insertion holes are respectively located therein and second seating grooves are formed, respectively, and the first and second seating brackets are respectively seated in the first and second seating grooves.

In one aspect of the embodiment of the pipe connection structure according to the present invention, the first and second seating grooves and the first and second seating brackets are each formed in a circular cross-section that fits with each other, and the first and second In the flange, first and second anti-rotation grooves defined by recessing a portion of each other surface to communicate with a portion of the outer periphery of the first and second seating grooves are respectively formed, and the first and second seating brackets include: First and second anti-rotation ribs respectively seated in the first and second anti-rotation grooves are provided.

In one aspect of the embodiment of the pipe connection structure according to the present invention, the first and second locking projections are on one surface of the first and second seating brackets corresponding to the circumference concentric with the first and second communication holes. The first and second anti-reverse protrusions are respectively disposed to be spaced apart from each other by a predetermined central angle, and the first and second anti-reverse protrusions are disposed on the outer periphery of the first and second anti-reverse rings concentric with the first and second communication openings. The first and second locking protrusions are respectively disposed to be spaced apart from each other by a predetermined central angle, and the bolts have the first communication opening, the first communication hole, the first insertion hole, the second insertion hole, the second communication hole, and the second communication opening. In a direction penetrating through the first and second locking projections and the first and second anti-reverse rotation rings are engaged.

In one aspect of the embodiment of the pipe connection structure according to the present invention, the first and second locking projections protrude from one surface of the first and second seating brackets, respectively, and the first and second anti-reverse rotation projections are , extending from the outer periphery of the first and second anti-reverse rings toward the first and second locking projections, respectively.

In one aspect of the embodiment of the pipe connection structure according to the present invention, in the first and second anti-reverse rings, a portion of each upper surface is defined by being depressed, and the first and the head of the bolt or the nut are respectively seated. The head of the bolt is respectively formed with second seating grooves, and extends from the inner peripheral surfaces of the first and second seating grooves to the inside of the first and second seating grooves, respectively, and is seated in the first and second seating grooves, respectively Alternatively, a plurality of first and second fixing protrusions for fixing the nuts, respectively, are provided.

In one aspect of the embodiment of the pipe connection structure according to the present invention, in the first and second anti-reverse rings, the remainder of the upper surface extends at a predetermined inclination with respect to the direction in which the first and second seating grooves are recessed. The first and second inclined surfaces to be used are formed, respectively, and a portion of the tip of the first and second inclined surfaces is cut in a sawtooth shape, respectively, to define the first and second anti-reverse rotation protrusions, respectively.

In one aspect of the embodiment of the pipe connection structure according to the present invention, the first and second anti-reverse rings are manufactured by piercing, punching, and pressing one member, respectively.

In one aspect of the embodiment of the pipe connection structure according to the present invention, the first and second mounting brackets are manufactured by piercing, pressing, and punching one member, respectively.

One aspect of the embodiment of the pipe connecting method according to the present invention is a pipe connecting method for connecting first and second pipes using the pipe connecting structure of claim 1, wherein: (A) the first and second pipes include: a pipe arrangement step (S100) in which one surface of the first and second flanges is disposed to be in contact with each other; (B) a bracket seating step (S200) in which the first and second mounting brackets are respectively seated on the other surfaces of the first and second flanges; (C) a fastener coupling step in which the bolt and the nut are respectively coupled to the first and second anti-reverse rings (S300); and (D) the bolt coupled to the first anti-reverse ring is passed through the first and second flanges and the first and second seating brackets to the nut coupled to the second anti-reverse ring. a fastener fastening step (S400) in which the first and second anti-reverse rings are seated on one surface of the first and second mounting brackets, respectively, while being fastened; Including, in the fastener fastening step (S400), the first and second anti-reverse protrusions, the first and second anti-reverse rings are the bolts and When the nut rotates in the direction in which it is fastened, the first and second locking projections pass respectively, and the first and second reverse rotation prevention rings are rotated with respect to the first and second seating brackets. When rotating in the release direction, the first and second locking projections are engaged, respectively.

In one aspect of the embodiment of the pipe connection method according to the present invention, in a state in which the first and second locking projections and the first and second anti-reverse rotation prevention projections are engaged with each other, parallel to one surface of the first and second seating brackets Relative movement of the first and second anti-reverse rings with respect to the first and second seating brackets in one direction is allowed, respectively.

In one aspect of the embodiment of the pipe connection method according to the present invention, (C) in the fastener coupling step (S300), the first and second flanges, first and second insertion holes are respectively formed, and the first and first and second communication holes communicating with any one of the plurality of first and second insertion holes are formed in the second seating bracket, respectively, and the first and second anti-rotation rings include the first and second communication holes. First and second communication openings respectively communicating with the second communication hole are formed, respectively, and the bolt has its body attached to the first reverse rotation prevention ring while its head is coupled to the first reverse rotation prevention ring. A first communication opening formed in, a first communication hole formed in the first seating flange, a first insertion hole formed in the first flange, a second insertion hole formed in the second flange, the second seating flange The formed second communication hole and the second communication opening formed in the second anti-reverse ring are sequentially passed through, and are fastened to the nut coupled to the second anti-reverse ring.

In one aspect of the embodiment of the pipe connection method according to the present invention, (B) in the bracket mounting step (S200), the first and second mounting brackets are configured such that the first and second insertion holes are located therein, respectively. A portion of the other surfaces of the first and second flanges are respectively seated in a plurality of first and second seating grooves defined by being depressed.

In one aspect of the embodiment of the pipe connection method according to the present invention, (B) in the bracket seating step ( S200 ), the first and second anti-rotation ribs provided on the first and second seating brackets include the first And a portion of the other surface of the first and second flanges are respectively seated in the first and second anti-rotation grooves defined by depression so as to communicate with a portion of the outer periphery of the second seating groove.

In one aspect of the embodiment of the pipe connection method according to the present invention, (D) in the fastener fastening step (S400), the first and second seating brackets corresponding to the circumference concentric with the first and second communication holes The first and second locking protrusions respectively disposed to be spaced apart from each other by a predetermined central angle on one surface of the first and second communication openings and the first and second anti-reverse rings are concentric with the outer periphery of the first and the first and second anti-reverse rotation protrusions respectively disposed to be spaced apart from each other by a second locking protrusion and a predetermined central angle, the bolts are the first communication opening, the first communication hole, the first insertion hole, the second insertion hole , engages in a direction penetrating the second communication hole and the second communication opening.

In one aspect of the embodiment of the pipe connection method according to the present invention, (C) in the fastener fastening step (S300), the head of the bolt and the nut, a portion of the upper surface of the first and second anti-reverse rings In a state of being seated in the first and second seating grooves defined by being depressed, respectively, on the first and second fixing protrusions extending from the inner peripheral surfaces of the first and second seating grooves to the inside of the first and second seating grooves are fixed respectively by

According to the pipe connection structure and method according to an embodiment of the present invention, the following effects can be expected.

First, in the embodiment of the present invention, the mounting bracket is seated on a flange fixed to one end of the pipe. Therefore, in the embodiment of the present invention, the member disposed to surround the pipe and the member for pressing and fixing it to the pipe to prevent reverse rotation in the loosening direction of the bolt and the nut are deleted, so that the number of parts and the work man-hours are reduced. can be reduced

In addition, in the embodiment of the present invention, the locking projection and the reverse rotation prevention projection that substantially prevent reverse rotation in the loosening direction of the bolt and the nut are engaged with each other in the direction in which the bolt passes through the flange, the mounting bracket, and the reverse rotation prevention ring. . Therefore, according to the embodiment of the present invention, the alignment of the mounting bracket and the anti-reverse ring becomes unnecessary, so that the operation can be made more simply.

And in the embodiment of the present invention, the relative movement of the reverse rotation prevention ring with respect to the seating bracket in a direction parallel to one surface of the seating bracket in a state in which the locking projection and the reverse rotation prevention projection are engaged is allowed. Therefore, according to the embodiment of the present invention, easy correction according to the dimensions of the parts or the working conditions can be allowed.

1 is a perspective view showing a pipe connection structure according to an embodiment of the present invention.
Figure 2 is an exploded perspective view showing a pipe connection structure according to an embodiment of the present invention.
Figure 3 is a cross-sectional view showing the main part of the pipe connection structure according to the embodiment of the present invention.
4 is a flowchart showing a pipe connection method according to an embodiment of the present invention.

Hereinafter, a pipe connection structure according to an embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a perspective view showing a pipe connection structure according to an embodiment of the present invention, FIG. 2 is an exploded perspective view showing a pipe connection structure according to an embodiment of the present invention, and FIG. 3 is a pipe connection structure according to an embodiment of the present invention It is a cross-sectional view showing the main part of

1 to 3, the pipe connection structure according to this embodiment is for connecting one end of the first and second pipes (P1) (P2) to each other, and the first and second flanges (100A) ( 100B), first and second mounting brackets 200A and 200B, first and second anti-reverse rings 300A and 300B, bolts B and nuts N.

More specifically, the first and second flanges 100A and 100B are fixed to one end of the first and second pipes P1 and P2, respectively. For example, the first and second flanges 100A and 100B are formed in a ring shape having a predetermined diameter and thickness and are welded to the ends of the first and second pipes P1 and P2 to be fixed. can And when one end of the first and second pipes P1 and P2 is connected, one surface of the first and second flanges 100A and 100B is in contact with each other.

In addition, a plurality of first and second insertion holes 110A and 110B are respectively formed in the first and second flanges 100A and 100B. The first and second insertion holes 110A and 110B are places through which the bolt B passes, and the first and second flanges are centered around the first and second pipes P1 and P2. It may be disposed to be spaced apart by a predetermined central angle on the outer periphery of (100A) (100B).

In addition, first and second seating grooves 120A and 120B and first and second rotation preventing grooves 130A and 130B are respectively formed in the first and second flanges 100A and 100B. The first and second seating grooves 120A and 120B are provided with the first and second flanges 100A and 100B so that the first and second insertion holes 110A and 110B are respectively positioned therein. A part of the riding surface of each is recessed and defined. Here, the other surface of the first and second flanges 100A and 100B means the opposite surface of one surface of the first and second flanges 100A and 100B in contact with each other. The first and second anti-rotation grooves 130A and 130B have a portion of each other surface of each of the first and second seating grooves to communicate with a portion of the outer periphery of the first and second seating grooves 120A and 120B. The grooves 120A and 120B may be defined by being recessed in the same direction as the grooves 120A and 120B, respectively. For example, the first and second seating grooves 120A and 120B are each formed in a circular cross section, and the first and second rotation preventing grooves 130A and 130B are, 2 The seating grooves (120A) and (120B) of the outer periphery may be composed of two radially extending from each other at opposing positions.

On the other hand, the first and second seating brackets 200A and 200B, the other surfaces of the first and second flanges 100A and 100B, are substantially the first and second seating grooves 120A and 120B. are mounted on each In addition, first and second communication holes 210A and 210B are formed in the first and second mounting brackets 200A and 200B, respectively. Wherein the first and second communication holes 210A and 210B communicate with any one of the plurality of first and second insertion holes 110A and 110B, respectively, and the bolts (B) pass through each of them. to be.

In addition, the first and second mounting brackets 200A and 200B are provided with a plurality of first and second locking projections 220A and 220B, respectively. The first and second locking protrusions 220A and 220B, the first and second mounting brackets 200A, corresponding to a circumference concentric with the first and second communication holes 210A and 210B (200A) ( 200B) are respectively disposed to be spaced apart from each other by a predetermined central angle on one surface. At this time, the first and second locking projections 220A and 220B protrude from one surface of the first and second seating brackets 200A and 200B, respectively.

In addition, first and second anti-rotation ribs 230A and 230B are provided in the first and second mounting brackets 200A and 200B, respectively. The first and second anti-rotation ribs 230A and 230B are formed when the first and second mounting brackets 200A and 200B are seated in the first and second mounting grooves 120A and 120B, respectively. , are inserted into the first and second anti-rotation grooves 130A and 130B, respectively. For example, the first and second seating brackets 200A and 200B are respectively formed in a disk shape, and the first and second rotation preventing ribs 230A and 230B are formed in the first and second seating brackets. (200A) and (200B) may be composed of two radially extending from each other at opposite positions of the outer periphery. Accordingly, when the first and second anti-rotation ribs 230A and 230B are respectively inserted into the first and second anti-rotation grooves 130A and 130B, the first and second seating grooves 120A and ( Rotation of the first and second mounting brackets 200A and 200B respectively seated in 120B) with respect to the first and second flanges 100A and 100B may be prevented.

In the present embodiment, the first and second mounting brackets 200A and 200B may be manufactured by piercing, pressing, and punching one member, respectively. For example, in this embodiment, the band-shaped member may be pierced to form the first communication hole 210A and then pressed to form the first locking protrusion 220A. Next, the first mounting bracket 200A, in which the first communication hole 210A and the first locking protrusion 220A are formed, is pressed to be separated from the band member and at the same time the first rotation preventing rib 230A is formed. can

Next, the first and second anti-reverse rings 300A and 300B are formed on one surface of the first and second seating brackets 200A and 200B, substantially, the first and second locking projections ( 220A) and 220B are respectively seated on one surface of the first and second mounting brackets 200A and 200B. First and second communication openings 310A and 310B are formed in the first and second anti-reverse rings 300A and 300B, respectively. The first and second communication openings 310A and 310B may include the first and second communication holes 210A and 210B, substantially, the first and second insertion holes 110A and 110B and the first and second communication openings 310A and 310B. The first and second communication holes 210A and 210B are respectively communicated with each other, and the bolts (B) pass therethrough, respectively.

In particular, in this embodiment, the first and second anti-reverse rings 300A and 300B are provided with a plurality of first and second anti-reverse protrusions 320A and 320B, respectively. The first and second anti-reverse projections 320A and 320B are the first and second locking projections 220A on the outer periphery of the first and second anti-reverse rings 300A and 300B ( 220B) respectively. The first and second anti-reverse projections 320A and 320B are the first and second locking projections 220A and 220B engaged with the first and second locking projections 220A and 220B, respectively. Each ride is optional.

In more detail, the first and second anti-reverse projections 320A and 320B, and the first and second anti-reverse rings 300A and 300B are the first and second mounting brackets 200A. ) When the bolt (B) and the nut (N) are rotated in a direction in which the bolt (B) and the nut (N) are fastened with respect to the 200B, the first and second locking projections 220A and 220B are respectively passed. And the first and second anti-reverse rings (300A, 300B) are rotated in a direction in which the bolt (B) and the nut (N) are loosened with respect to the first and second mounting brackets (200A, 200B). In this case, the first and second locking projections 220A and 220B are respectively caught. In other words, by the first and second locking projections 220A and 220B and the first and second anti-reverse projections 320A and 320B, the first and second seating brackets 200A and 200B ) of the first and second anti-reverse rings (300A) and (300B) in the direction in which the bolt (B) and the nut (N) are fastened is allowed, but the bolt (B) and the nut (N) ) in the direction of unwinding is limited.

In addition, in this embodiment, in a state in which the first and second locking protrusions 220A and 220B and the first and second anti-reverse protrusions 320A and 320B are engaged, the first and second seating Relative movement of the first and second anti-reverse rings 300A and 300B with respect to the first and second seating brackets 200A and 200B in a direction parallel to one surface of the brackets 200A and 200B. Each of these is allowed. In other words, in this embodiment, by the relative movement of the first and second anti-reverse rings 300A and 300B with respect to the first and second mounting brackets 200A and 200B, the bolt (B) and the first and second insertion holes 110A and 110B can be corrected for errors due to differences in diameters, and the like.

On the other hand, in the present embodiment, first and second seating grooves 330A and 330B are formed in the first and second anti-reverse rings 300A and 300B, respectively, and first and second fixing protrusions 340A and 340B are provided, respectively. The first and second seating grooves 330A and 330B are defined by recessing portions of upper surfaces of the first and second anti-reverse rings 300A and 300B, respectively, and the first and second seating grooves 330A and 330B. The head Bh of the bolt B or the nut N are respectively seated in the grooves 330A and 330B. In addition, the first and second fixing protrusions 340A and 340B are formed inside the first and second seating grooves 330A and 330B on the inner peripheral surfaces of the first and second seating grooves 330A and 330B. respectively to fix the head Bh or the nut N of the bolts B respectively extended to the first and second seating grooves 330A and 330B. For example, the first and second fixing protrusions 340A and 340B have a cross section of a predetermined shape so that the head Bh or the nut N of the octagonal bolt (B) can be mated. It may be composed of a plurality of having.

In addition, first and second inclined surfaces 350A and 350B are respectively formed on the first and second anti-reverse rings 300A and 300B. The first and second inclined surfaces 350A and 350B are the remaining upper surfaces of the first and second anti-reverse rings 300A and 300B except for the first and second seating grooves 330A and 330B. may be defined to extend at a predetermined inclination with respect to a direction in which the first and second seating grooves 330A and 330B are recessed, respectively. In addition, a portion of the tip of the first and second inclined surfaces 350A and 350B may be cut in a sawtooth shape, respectively, so that the first and second reverse rotation preventing protrusions 320A and 320B may be defined, respectively.

In this embodiment, the first and second anti-reverse rings 300A and 300B may be manufactured by piercing, punching, and pressing one member, respectively. For example, in this embodiment, the band-shaped member is pierced to form the first communication opening 310A and then punched to form the first reverse rotation prevention protrusion 320A and the first reverse rotation prevention ring. 300A can be detached from the member. In this way, the first reverse rotation prevention ring 300A having the first communication opening 310A and the first reverse rotation prevention protrusion 320A formed therein is pressed, and the first seating groove 330A, the first fixing protrusion ( 340A) and a first inclined surface 350A may be defined.

On the other hand, the bolt (B) and the nut (N) serve to connect and fix the first and second pipes P1 and P2, substantially, the first and second flanges 100A and 100B. It functions as a fastener to fix the More specifically, the bolt (B) is installed through the first and second flanges 100A and 100B and the first and second mounting brackets 200A and 200B. Substantially, the bolt (B), the body (Bb) of the first communication opening (310A), the first communication hole (210A), the first insertion hole (110A), the second insertion hole (110B), the first The second communication hole 210B and the second communication opening 310B sequentially pass through. And the nut (N) is fastened to the tip of the bolt (B) passing through the first and second flanges 100A and 100B and the first and second mounting brackets 200A and 200B.

In this embodiment, in a state in which the head Bh of the bolt B and the nut N are respectively coupled to the first and second anti-reverse rings 300A and 300B, the bolt B And the nut (N) is fastened. Substantially, the head Bh of the bolt B and the nut N are respectively seated in the first and second seating grooves 330A and 330B, respectively, and the first and second fixings They will be fixed by the projections 340A and 340B, respectively. However, the first and second anti-reverse rings 300A and 300B are in the direction in which the bolt B and the nut N are fastened with respect to the first and second seating brackets 200A and 200B. Each of them is rotatable, but the rotation is limited in the direction in which the bolt (B) and the nut (N) are loosened. Accordingly, the first and second seating brackets 200A and 200B and the first and second anti-reverse rings 300A and 300B, substantially the first and second locking protrusions 220A and 220B) and the first and second anti-reverse projections 320A and 320B prevent the bolt (B) and the nut (N) from arbitrarily loosening.

Hereinafter, a pipe connection method according to an embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

4 is a flowchart illustrating a pipe connection method according to an embodiment of the present invention.

Referring to FIG. 4 , the pipe connection method according to the present embodiment is a method for connecting the first and second pipes P1 and P2, and includes a pipe arrangement step S100, a bracket seating step S200, and a fastener. It includes a coupling step (S300) and a fastener fastening step (S400).

More specifically, in the pipe arrangement step (S100), the first and second pipes (P1) and (P2) are arranged so that one surface of the first and second flanges 100A and 100B is in contact with each other. For example, the first and second pipes P1 and P2 may be disposed in a horizontal or vertical direction.

Next, in the bracket seating step ( S200 ), the first and second seating brackets 200A and 200B are mounted on the other surfaces of the first and second flanges 100A and 100B, respectively. Substantially, in the bracket seating step (S200), the first and second seating brackets 200A and 200B are provided with first and second seating grooves ( 120A) and 120B respectively. In addition, the first and second anti-rotation ribs 230A and 230B of the first and second seating brackets 200A and 200B are provided with the first and second rotation preventing ribs 230A and 230B of the first and second flanges 100A and 100B. By being seated in the second anti-rotation grooves 130A and 130B, respectively, the relative rotation of the first and second mounting brackets 200A and 200B with respect to the first and second flanges 100A and 100B is respectively. is prevented

And in the fastener coupling step (S300), the head (Bh) and the nut (N) of the bolt (B) are coupled to the first and second anti-reverse rings 300A and 300B, respectively. Substantially, in the fastener coupling step S300, the head Bh of the bolt B and the nut N are the first and second anti-reverse rings 300A and 300B, respectively. The first and second anti-reverse rings 300A are seated in the first and second seating grooves 330A and 330B, respectively, and in a state in which they are seated in the first and second seating grooves 330A and 330B ( 300B) is fixed by the first and second fixing protrusions 340A and 340B, respectively.

Next, in the fastener fastening step (S400), the bolt (B) and the nut (N) are fastened to each other while seated on the first and second anti-reverse rings 300A and 300B, respectively. More specifically, in the fastener fastening step (S400), in a state in which the head (Bh) of the bolt (B) is coupled to the first reverse rotation prevention ring (300A), the body of the bolt (B) ( Bb) passes through the first and second flanges 100A and 100B and the first and second mounting brackets 200A and 200B. And in the fastener fastening step (S400), while the body (Bb) of the bolt (B) is fastened to the nut (N) coupled to the second anti-reverse ring (300B), the first and second Anti-reverse rings 300A and 300B are respectively seated on one surface of the first and second mounting brackets 200A and 200B.

As such, in the fastener fastening step (S400), when the bolt (B) and the nut (N) are fastened in a state coupled to the first and second anti-reverse rings 300A and 300B, respectively, As described above, the first and second anti-reverse projections 320A and 320B are engaged with the first and second locking projections 220A and 220B, respectively. Accordingly, in the direction in which the first and second anti-reverse rotation rings 300A and 300B are fastened with respect to the first and second seating brackets 200A and 200B, the bolts B and the nut N are fastened. In the case of rotation, the first and second locking projections 220A and 220B are respectively passed, and the first and second anti-reverse rings 300A and 300B are mounted on the first and second seating brackets. When the bolt (B) and the nut (N) are rotated in the loosening direction with respect to 200A and 200B, the first and second locking protrusions 220A and 220B are engaged respectively. That is, for the first and second mounting brackets 200A and 200B of the first and second anti-reverse rings 300A and 300B in the direction in which the bolt (B) and the nut (N) are loosened. By restricting the relative rotation, loosening of the bolt (B) and the nut (N) is prevented.

In addition, in this embodiment, in a state in which the first and second locking protrusions 220A and 220B and the first and second anti-reverse protrusions 320A and 320B are engaged, the first and second seating Relative movement of the first and second anti-reverse rings 300A and 300B with respect to the first and second seating brackets 200A and 200B in a direction parallel to one surface of the brackets 200A and 200B. Each of these is allowed. Therefore, even in a state in which the first and second locking protrusions 220A and 220B and the first and second anti-reverse protrusions 320A and 320B are engaged with each other, the first and second anti-reverse rings ( By moving 300A) and 300B with respect to the first and second mounting brackets 200A and 200B, the relative position can be corrected according to the dimensions of parts or the working environment.

The scope of the present invention is not limited to the embodiments described above, but is defined by what is described in the claims, and a person of ordinary skill in the art of the present invention can make various modifications and adaptations within the scope of the claims. It is self-evident that you can

100A, 100B: Flange 110A, 110B: Insert hole
120A, 120B: seating groove 130A, 130B: anti-rotation groove
200A, 200B: Mounting bracket 210A, 210B: Through hole
220A, 220B: Claws 230A, 230B: Anti-rotation ribs
300A, 300B: Anti-reverse ring 310A, 310B: Through opening
320A, 320B: anti-reverse projection 330A, 330B: seating groove
340A, 340B: fixing protrusion 350A, 350B: inclined surface
B: Bolt N: Nut

Claims (18)

A first flange (100A) fixed to one end of the first pipe (P1);
a second flange (100B) fixed to one end of a second pipe (P2) connected to the first pipe (P1) and contacting one surface and one surface of the first flange (100A);
A plurality of first seating brackets (200A) each seated on the other surface of the first flange (100A), and a plurality of first locking projections (220A) provided on one surface thereof;
a plurality of second mounting brackets 200B respectively seated on the other surface of the second flange 100B and having a plurality of second locking protrusions 220B on one surface thereof;
Each seated on one surface of the first seating bracket 200A provided with the first locking protrusion 220A, and selectively riding the first locking protrusion 220A in a state engaged with the first locking protrusion 220A A plurality of first reverse rotation prevention rings (300A) each of which is provided with a plurality of first reverse rotation prevention protrusions (320A) to pass;
Each seated on one surface of the second seating bracket 200B provided with the second locking protrusion 220B, and selectively riding the second locking protrusion 220B in a state engaged with the second locking protrusion 220B A plurality of second reverse rotation prevention rings (300B) each having a plurality of second reverse rotation prevention protrusions (320B) that pass;
A plurality of the first and second flanges 100A and 100B and the first and second mounting brackets 200A and 200B are installed to pass through, and are respectively coupled to the first reverse rotation prevention ring 300A. bolt (B); and
The first and second flanges 100A and 100B and the first and second mounting brackets 200A and 200B are fastened to the ends of the bolts B, and the second anti-reverse ring ( 300B) a plurality of nuts each coupled to (N); including,
The first and second anti-reverse projections 320A and 320B, the first and second anti-reverse rings 300A and 300B are attached to the first and second mounting brackets 200A and 200B. When rotating in the direction in which the bolt (B) and the nut (N) are fastened, the first and second locking projections 220A and 220B respectively pass over, and the first and second reverse rotation are prevented. When the rings 300A and 300B rotate with respect to the first and second mounting brackets 200A and 200B in the direction in which the bolts B and the nut N are loosened, the first and second engaging A pipe connection structure hooked on the projections 220A and 220B, respectively.
The method of claim 1,
In a state in which the first and second locking protrusions 220A and 220B and the first and second anti-reverse protrusions 320A and 320B are engaged, respectively, the first and second seating brackets 200A and 200B ) pipe connection in which the relative movement of the first and second anti-reverse rings 300A and 300B with respect to the first and second mounting brackets 200A and 200B in a direction parallel to one surface of each is allowed structure.
3. The method of claim 2,
A plurality of first and second insertion holes 110A and 110B are respectively formed in the first and second flanges 100A and 100B,
The first and second mounting brackets 200A and 200B have first and second communication holes 210A and 210B that communicate with any one of the plurality of first and second insertion holes 110A and 110B. ) are formed respectively,
The first and second anti-reverse rings 300A and 300B have first and second communication openings 310A and 310B respectively communicating with the first and second communication holes 210A and 210B. each formed,
The bolt (B) is, in a state in which the head (Bh) is coupled to the first reverse rotation prevention ring (300A), the body (Bb) of the first communication opening (310A), the first communication hole (210A) ), the first insertion hole (110A), the second insertion hole (110B), the second communication hole (210B) and the second communication opening (310B) through sequentially, the second reverse rotation prevention ring (300B) A pipe connection structure fastened to the coupled nut (N).
4. The method of claim 3,
The first and second flanges 100A and 100B have a plurality of first and second insertion holes 110A and 110B defined by recessing a portion of each other surface so that the first and second insertion holes 110A and 110B are respectively located therein. The second seating grooves 120A and 120B are respectively formed,
The first and second seating brackets 200A and 200B are pipe connection structures that are respectively seated in the first and second seating grooves 120A and 120B.
5. The method of claim 4,
The first and second seating grooves 120A and 120B and the first and second seating brackets 200A and 200B are each formed in a circular cross-section that fits with each other,
The first and second flanges 100A and 100B have first and second surfaces defined by recessing a portion of each other surface so as to communicate with a portion of the outer periphery of the first and second seating grooves 120A and 120B. Rotation prevention grooves 130A and 130B are respectively formed,
In the first and second mounting brackets 200A and 200B, first and second anti-rotation ribs 230A and 230B respectively seated in the first and second anti-rotation grooves 130A and 130B are provided. Pipe connection structure provided.
4. The method of claim 3,
The first and second locking protrusions 220A and 220B, the first and second mounting brackets 200A, corresponding to a circumference concentric with the first and second communication holes 210A and 210B (200A) ( 200B) are respectively arranged to be spaced apart from each other by a predetermined central angle on one surface,
The first and second anti-reverse projections 320A and 320B are concentric with the first and second communication openings 310A and 310B, and the first and second anti-reverse rings 300A and 300B. ) on the outer periphery of the first and second locking projections 220A and 220B and are respectively arranged to be spaced apart from each other by a predetermined central angle,
The bolt (B) is the first communication opening (310A), the first communication hole (210A), the first insertion hole (110A), the second insertion hole (110B), the second communication hole (210B) and the second communication A pipe connection structure in which the first and second locking protrusions 220A and 220B and the first and second anti-reverse rings 300A and 300B are engaged in a direction penetrating the opening 310B.
7. The method of claim 6,
The first and second locking projections 220A and 220B protrude from one surface of the first and second seating brackets 200A and 200B, respectively,
The first and second anti-reverse projections 320A and 320B are the first and second locking projections 220A on the outer periphery of the first and second anti-reverse rings 300A and 300B ( 220B) respectively extending pipe connection structures.
4. The method of claim 3,
In the first and second anti-reverse rings (300A) (300B),
A part of each upper surface is defined by being depressed, and first and second seating grooves 330A and 330B in which the head Bh of the bolt B or the nut N are seated are respectively formed,
The first and second seating recesses 330A and 330B extend from the inner peripheral surfaces of the first and second seating recesses 330A and 330B to the inside of the first and second seating recesses 330A and 330B, respectively, and the first and second seating recesses 330A and 330B ) A pipe connection structure in which a plurality of first and second fixing protrusions 340A and 340B respectively for fixing the head Bh of the bolt B or the nut N respectively seated on the nut (N) are provided.
9. The method of claim 8,
In the first and second anti-reverse rings 300A and 300B, the remainder of the upper surface extends at a predetermined inclination with respect to the direction in which the first and second seating grooves 330A and 330B are depressed. The first and second inclined surfaces 350A and 350B are respectively formed,
A pipe connection structure in which a portion of the tip of the first and second inclined surfaces 350A and 350B is cut in a sawtooth shape, respectively, so that the first and second anti-reverse rotation protrusions 320A and 320B are defined, respectively.
10. The method of claim 9,
The first and second anti-reverse rings 300A and 300B are pipe connection structures in which one member is pierced, punched and pressed, respectively.
4. The method of claim 3,
The first and second mounting brackets 200A and 200B are pipe connection structures in which one member is pierced, pressed, and punched, respectively.
A pipe connection method for connecting the first and second pipes (P1) and (P2) using the pipe connection structure of claim 1, comprising:
(A) the first and second pipes (P1) (P2), a pipe arrangement step (S100) in which one surface of the first and second flanges (100A, 100B) is disposed to be in contact with each other;
(B) a bracket seating step (S200) in which the first and second mounting brackets 200A and 200B are respectively seated on the other surfaces of the first and second flanges 100A and 100B;
(C) a fastener coupling step (S300) in which the bolt (B) and the nut (N) are respectively coupled to the first and second anti-reverse rings (300A) and (300B); and
(D) the bolt (B) coupled to the first reverse rotation prevention ring (300A), the first and second flanges (100A) (100B) and the first and second mounting brackets (200A) (200B) ) through and fastened to the nut (N) coupled to the second anti-reverse ring (300B), the first and second anti-reverse rings (300A, 300B) are seated in the first and second Fastening fasteners each seated on one surface of the brackets (200A) and (200B) (S400); including,
In the fastener fastening step (S400),
The first and second anti-reverse projections 320A and 320B, the first and second anti-reverse rings 300A and 300B are attached to the first and second mounting brackets 200A and 200B. When rotating in the direction in which the bolt (B) and the nut (N) are fastened, the first and second locking projections 220A and 220B respectively pass over, and the first and second reverse rotation are prevented. When the rings 300A and 300B rotate with respect to the first and second mounting brackets 200A and 200B in the direction in which the bolts B and the nut N are loosened, the first and second engaging A method of connecting a pipe to each of the projections 220A and 220B.
13. The method of claim 12,
In a state in which the first and second locking protrusions 220A and 220B and the first and second anti-reverse protrusions 320A and 320B are engaged, respectively, the first and second seating brackets 200A and 200B ) pipe connection in which the relative movement of the first and second anti-reverse rings 300A and 300B with respect to the first and second mounting brackets 200A and 200B in a direction parallel to one surface of each is allowed Way.
14. The method of claim 13,
(C) in the fastener coupling step (S300),
In the first and second flanges 100A and 100B, first and second insertion holes 110A and 110B are respectively formed,
The first and second mounting brackets 200A and 200B have first and second communication holes 210A and 210B that communicate with any one of the plurality of first and second insertion holes 110A and 110B. ) are formed respectively,
The first and second anti-reverse rings 300A and 300B have first and second communication openings 310A and 310B respectively communicating with the first and second communication holes 210A and 210B. each formed,
The bolt (B) has a first body (Bb) formed in the first anti-reverse ring (300A) in a state in which the head (Bh) is coupled to the first anti-reverse ring (300A). Communication opening 310A, a first communication hole 210A formed in the first seating flange 200A, a first insertion hole 110A formed in the first flange 100A, and the second flange 100B A second insertion hole (110B) formed in the second communication hole (210B) formed in the second seating flange (200B), and a second communication opening (310B) formed in the second anti-reverse ring (300B) By sequentially passing through the pipe connection method that is fastened to the nut (N) coupled to the second anti-reverse ring (300B).
15. The method of claim 14,
(B) in the bracket seating step (S200),
The first and second mounting brackets 200A and 200B are provided with the first and second flanges 100A and 100B so that the first and second insertion holes 110A and 110B are respectively positioned therein. A pipe connection method in which a portion of the other surface of the pipe is seated in a plurality of first and second seating grooves 120A and 120B, respectively, which are defined by being depressed.
16. The method of claim 15,
(B) in the bracket seating step (S200),
The first and second anti-rotation ribs 230A and 230B provided in the first and second seating brackets 200A and 200B are provided on the outer periphery of the first and second seating grooves 120A and 120B. A pipe connection method in which a portion of the other surface of the first and second flanges 100A and 100B is recessed and seated in first and second anti-rotation grooves 130A and 130B, respectively, so as to communicate with a portion thereof.
15. The method of claim 14,
(D) in the fastener fastening step (S400),
The first and second communication holes 210A and 210B and the first and second mounting brackets 200A and 200B corresponding to a circumference concentric with each other are disposed to be spaced apart from each other by a predetermined central angle on one surface. In addition to the first and second locking projections 220A and 220B and the first and second communication openings 310A and 310B concentric with the first and second anti-reverse rings 300A and 300B. The first and second locking protrusions 220A and 220B and the first and second anti-reverse protrusions 320A and 320B respectively disposed to be spaced apart from each other by a predetermined central angle on the periphery, the bolt (B) The first communication opening (310A), the first communication hole (210A), the first insertion hole (110A), the second insertion hole (110B), the second communication hole (210B) and the second communication opening (310B) A method of connecting pipes that engage in the direction of penetration.
15. The method of claim 14,
(C) in the fastener fastening step (S300),
The head (Bh) and the nut (N) of the bolt (B) are first and second seating grooves defined by recessed portions of the upper surfaces of the first and second anti-reverse rings 300A and 300B, respectively. In the state seated in (330A) and (330B), the first and second seating grooves (330A) and (330B) extending from the inner peripheral surface of the first and second seating grooves (330A, 330B) to the inside of the first and a pipe connection method respectively fixed by the second fixing protrusions 340A and 340B.

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