KR102290701B1 - Pipe joint member and pipe structure using the same - Google Patents

Abstract

The present invention is a first pipe 100 made of a steel material; In order to couple the second pipe 200 made of synthetic resin and the first pipe 100, a first insertion part 310 for inserting one end of the first pipe 100 on the other side is formed, and on one side As relates to a piping member (A) comprising; an adapter 300 having a second insertion part 320 for the other end of the second pipe 200 to be inserted for bonding, wherein the first insertion part 310 ) and the inner diameter of the first pipe 100 , the inner diameter of the second insertion part 320 is formed to be large, and one end of the first pipe 100 has a second insertion part 320 of the adapter 300 . ) is inserted to protrude toward the side to form a protrusion 101 , and an extra space between the outside of the protrusion 101 of the first pipe 100 and the inside of the other end of the second insertion part 320 of the adapter 300 . In order to form a bond evacuation space 301 for evacuation of the bond, the inner peripheral surface of the second insertion part 320 of the adapter 300 has a stopping protrusion 302 so that the other end of the second pipe 200 is caught. By presenting the piping member (A) characterized in that this is formed, so that a space is formed for the extra bond to escape, it is possible to prevent damage to the pipe due to the excessively applied bond.

Description

Piping member and piping structure using the same {PIPE JOINT MEMBER AND PIPE STRUCTURE USING THE SAME}

The present invention relates to the field of construction technology, and more particularly, to a piping member and a piping structure using the same.

1 and 2 relate to Korean Patent Application No. 10-2014-0139646 (expandable pipe for CPVC branch pipe and manufacturing method thereof).

As shown in Figure 1, the expansion pipe (A) is installed between the branch pipe (B) for the sprinkler and the reducing elbow (D) for installing the sprinkler head (C), or the expansion pipe is manufactured as a single node An expansion and contraction pipe (1) which is used as a pipe connection joint of the pipe (B) to offset the stress generated in the pipe, and to offset the stress generated in the pipe and the convenience of the pipe work; It is coupled to one end of the expansion pipe (1) and consists of an adapter (2) for coupling the branch pipe (B) and the expansion pipe (A).

The expansion pipe 1 is made of a stainless steel material, and the expansion pipe 1 has a corrugation 11 that offsets the stress generated in the pipe and the convenience of piping work, except for a certain length of both ends. .

At one end of the branch pipe (B) side of the expansion and contraction pipe (1), the branch pipe (B) is inserted into the outer circumferential surface, and the branch pipe inner insertion part (12) is in contact with the inner surface of the branch pipe (B); It is formed at the end of the branch pipe inner insertion part 12, the end of the branch pipe (B) is in contact, and is formed by pressing after expansion in order to prevent the adapter 2 from being pushed toward the branch pipe (B). a terminal unit 13; It is installed on the side of the corrugation 11 of the terminal part 13 and comes into contact with the inside of the adapter 2 so that the fluid inside is transferred from the expansion pipe 1 to the inner circumferential surface of the adapter 2 and the expansion pipe ( 1) a first O-ring 14 for preventing leakage between the outer circumferential surfaces; a first ring groove 15 in which a second O-ring 151 for preventing secondary leakage when a leakage occurs in the first O-ring 14 is installed; a second ring groove (16) in which a third O-ring (161) for preventing leakage in the third direction when leakage occurs in the second O-ring (151) is installed; A protruding bulging portion 17 is formed to prevent the adapter 2 from being pushed toward the wrinkle portion 11 of the expansion and contraction pipe 1 .

The adapter (2) is manufactured by injection method of CPVC (Chlorinated Polyvinyl Chloride) material.

In order to prevent the adapter 2 from being pushed toward the wrinkle part 11 at the end of the expansion pipe 1 side of the adapter 2, it is installed between the bulging part 17 and the adapter 2, a bulging ring 4 that is bulged at the same time as the bulging part 17 is formed so that the end is expanded and is in close contact with the bulging part 17; It abuts against one end of the branch pipe (B) side of the bulging ring (4) and holds the clearance between the expansion pipe and the adapter to improve the airtightness of the second O-ring (15) and the third O-ring (16), A cut-out ring-shaped stopper ring 5 is formed so that it can be spread apart.

The expansion and contraction pipe (A) is used when the material of the branch pipe (B) for firefighting is CPVC, and since it is used for a pipe with a relatively low pressure of 10 kg/cm 2 G or less, the flesh thickness that can form the terminal part 13 is It is used in the expansion and contraction pipe (1) of 03 mm or less.

Since the expansion pipe (1) is made of stainless steel and the adapter (2) is made of CPVC, when the branch pipe (B) of the sprinkler uses a CPVC material, it can be easily combined with an adhesive without using another adapter. It is possible to reduce the construction cost without degrading the function, and the first O-ring 14 primarily prevents leakage between the expansion pipe 1 and the adapter 2, and when the first O-ring 14 leaks, the second O-ring (151) and the third O-ring (161) to further increase the reliability of the triple leakage prevention pipe that catches the leakage, and by forming the terminal part (13) and the bulging part (17) in the expansion pipe (1) By increasing the coupling force between the expansion pipe (1) and the adapter (2), the durability of the pipe was increased.

As shown in Figure 2, the expansion pipe (A) is installed between the branch pipe (B) for the sprinkler and the reducing elbow (D) for installing the sprinkler head (C), or the expansion pipe is manufactured as a single node An expansion and contraction pipe (1) which is used as a pipe connection joint of the pipe (B) to offset the stress generated in the pipe, and to offset the stress generated in the pipe and the convenience of the pipe work; an adapter (2) coupled to one end of the expansion pipe (1) to couple the branch pipe (B) and the expansion pipe (A); A flare nut 3 coupled to the other end of the expansion pipe 1 and coupled to the reducing elbow D is further configured.

The expansion pipe 1 is made of a stainless steel material, and the expansion pipe 1 has a corrugation 11 that offsets the stress generated in the pipe and the convenience of piping work, except for a certain length of both ends. .

At one end of the branch pipe (B) side of the expansion and contraction pipe (1), the branch pipe (B) is inserted into the outer circumferential surface, and the branch pipe inner insertion part (12) is in contact with the inner surface of the branch pipe (B); It is formed at the end of the branch pipe inner insertion part 12, the end of the branch pipe (B) is in contact, and is formed by pressing after expansion in order to prevent the adapter 2 from being pushed toward the branch pipe (B). a terminal unit 13; It is installed on the side of the corrugation 11 of the terminal part 13 and comes into contact with the inside of the adapter 2 so that the fluid inside is transferred from the expansion pipe 1 to the inner circumferential surface of the adapter 2 and the expansion pipe ( 1) a first O-ring 14 for preventing leakage between the outer circumferential surfaces; a first ring groove 15 in which a second O-ring 151 for preventing secondary leakage when a leakage occurs in the first O-ring 14 is installed; a second ring groove (16) in which a third O-ring (161) for preventing leakage in the third direction when leakage occurs in the second O-ring (151) is installed; A protruding bulging portion 17 is formed to prevent the adapter 2 from being pushed toward the wrinkle portion 11 of the expansion and contraction pipe 1 .

At one end of the expansion pipe (1) where the flare nut (3) is installed, a nut end part (19) is formed to prevent the flare nut (3) from falling out toward the reducing elbow (D), and the expansion pipe ( At the end of the frea nut 3 between the nut end 19 and the corrugated part 11 of 1), a nut bulging part 18 for preventing the frea nut 3 from being pushed toward the corrugated part 11 ) is formed.

The adapter 2 is made of CPVC material by injection method, and at the end of the adapter 2 on the expansion pipe 1 side, in order to prevent the adapter 2 from being pushed toward the wrinkle part 11, the a bulging ring (4) installed between the bulging part (17) and the adapter (2), the bulging part (17) being bulged (bulging) as well as the formation of the bulging part (17), the end is expanded, and the bulging part (17) is in close contact with the bulging ring (4); It abuts against one end of the branch pipe (B) side of the bulging ring (4) and holds the clearance between the expansion pipe and the adapter to improve the airtightness of the second O-ring (15) and the third O-ring (16), A cut-out ring-shaped stopper ring 5 is formed so that it can be spread apart.

The flare nut 3 includes an insulating ring 32 for preventing corrosion of dissimilar metals that may occur between the nut body 31 and the expansion and contraction pipe 1 and the flare nut 3 to be joined; It is composed of a nut packing (33) for preventing leakage between the expansion pipe (1) and the flare nut (3).

The expansion and contraction pipe (A) is used when the material of the branch pipe (B) for firefighting is CPVC, and since it is used for a pipe with a relatively low pressure of 10 kg/cm 2 G or less, the flesh thickness that can form the terminal part 13 is It is used in the expansion and contraction pipe (1) of 03 mm or less.

3 and 4 relate to Korean Patent Application No. 10-2016-0039894 (expanded piping with increased airtightness of packing).

As shown in FIGS. 3 and 4, the expansion and contraction pipe (A) is installed between the branch pipe (B) made of CPVC and the reducing elbow for installing the sprinkler head in the fire fighting pipe for the sprinkler, or the branch pipe is manufactured as a single node. It is used as the pipe connection joint of (B) and serves to offset the stress generated in the pipe.

That is, the expansion and contraction pipe (A) is installed between the branch pipe (B) of CPVC material and the reducing elbow for installing the sprinkler head in the fire fighting pipe for the sprinkler, or it can be used in other pipes other than the fire pipe.

The expansion and contraction pipe (A) has one end coupled to a reducing elbow, and the expansion pipe (1) having corrugated portions (11) except for a certain portion of both ends in order to offset the stress generated in the pipe and convenience of piping work. Wow; Adapter (2) made of CPVC material and having a hollow (25) formed therein in a cylindrical shape, into which one end of the expansion pipe (1) is inserted and the branch pipe (B) is inserted at the other end and adhered with an adhesive (2) Wow; Packing ( 3) and; One end of the expansion pipe (1) passes inside, and one surface is in contact with the adapter (2) and the other surface is in contact with the packing (3) to reduce the clearance between the adapter (2) and the packing (3) to reduce the packing. (3) a backup ring (4) to help maintain the airtightness of the packing (3) by allowing the adapter (2) to stretch uniformly in the direction of the inner circumferential surface and the outer circumferential direction of the expansion and contraction pipe (1); Male threads are formed on the outer circumferential surface to be screwed into the inside of the adapter 3, and when screwed, it advances toward the expansion pipe 1 and compresses the packing 3 to compress the packing 3, the adapter 2, and the expansion/contraction. It improves the airtightness with the pipe (1) and at the same time prevents the packing (3) from being pushed toward the branch pipe (B), and a packing press screw (5) in which a hollow (51) is formed so that fire water can pass inside. is composed

The key point is that the packing screw (5) presses the packing (3) in the longitudinal direction of the expansion pipe (1) so that the packing (3) is connected to the outer circumferential surface of the expansion pipe (1) and the adapter ( 2) by improving airtightness so as to be in close contact with the inner circumferential surface of the expansion and contraction pipe (1) and preventing the water from leaking along the inner circumferential surface of the adapter (2), the backup ring (4) By allowing the adapter (2) to stretch uniformly in the direction of the inner circumferential surface and the outer circumferential direction of the expansion and contraction pipe (1), it serves as an auxiliary to help maintain the airtightness of the packing (3).

However, this prior art had the following problems.

Both the adapter 2 and the branch pipe B of the expansion and contraction pipe A are synthetic resins and are bonded by bonding. Specifically, in a state where the bond is applied to the outer surface of the end of the branch pipe B, it is attached to the adapter 2 Insert it and stick it.

Due to reasons such as safe adhesion and inexperienced work skill, a greater amount of bond than the amount required for actual adhesion is applied to the outer surface of the end of the branch pipe (B). The excess bond flows back into the inner surface of the branch pipe (B).

Damage to the branch pipe (B) made of synthetic resin is caused by the excessively applied and reversed bond, which has been pointed out as a problem (Figs. 5 and 6).

Reference numerals in the prior art are limited only to the description of the prior art.

Korean Patent Application No. 10-2014-0139646 (Extension piping for CPVC branch piping and manufacturing method thereof) Korean Patent Application No. 10-2016-0039894 (Expanded piping with improved packing airtightness)

The present invention has been derived to solve the above problems, and a piping member and a piping structure using the same, so that a space for evacuation of the excess bond is formed to prevent damage to the pipe due to the excessively applied bond It aims to present

In order to solve the above problems, the present invention is a first pipe 100 made of a steel material; In order to couple the second pipe 200 made of synthetic resin and the first pipe 100, a first insertion part 310 for inserting one end of the first pipe 100 on the other side is formed, and on one side In the piping member (A) including; the adapter 300 having a second insertion part 320 for the other end of the second pipe 200 to be inserted for bonding, the first insertion part 310 and an inner diameter of the second insertion part 320 is formed larger than that of the first pipe 100 , and one end of the first pipe 100 has a second insertion part 320 of the adapter 300 . It is inserted to protrude to the side to form a protrusion 101 , and an extra bond is formed between the outside of the protrusion 101 of the first pipe 100 and the inside of the other end of the second insertion part 320 of the adapter 300 . In order to form a bond evacuation space 301 for evacuation, a locking protrusion 302 is provided on the inner circumferential surface of the second insertion part 320 of the adapter 300 so that the other end of the second pipe 200 is caught. It presents a piping member (A), characterized in that formed.

In a state in which the other end of the second pipe 200 is inserted into the second insertion part 320 of the adapter 300 so that the other end is caught on the locking protrusion 302 , the protrusion 101 of the first pipe 100 . It is preferable that the locking protrusion 302 is formed at a position such that a gap 303 for forming a bond passage is formed between the end of the second pipe 200 and the other end of the second pipe 200 .

The second insertion part 320 of the adapter 300 includes a 2-1 insertion part 321 formed on one side of the first insertion part 310; and a 2-2 inserting part 322 formed on one side of the 2-1 inserting part 321 so that the inner diameter is larger than the inner diameter of the 2-1 inserting part 321; The 302 is preferably formed by a step structure between the 2-1 insertion part 321 and the 2-2 insertion part 322 .

The locking jaw 302 is preferably formed by the protruding jaw portion 302a protruding inward from the inner circumferential surface of the second insertion portion 320 of the adapter 300 .

It is preferable that the inner diameter of the first pipe 100 is larger than the inner diameter of the second pipe 200 .

An expansion part 311 is formed on one side of the first insertion part 310 of the adapter 300, and a leak prevention member 330 is formed in the expansion part 311 to surround the outer periphery of the first pipe 100. is installed, and on one side of the leak prevention member 330, a separation prevention part 110 is formed to protrude around the outer periphery of the first pipe 100 so as to prevent the leakage of the leak prevention member 330, The bond evacuation space 301 is preferably formed on one side of the separation preventing unit 110 .

In order to enlarge the bond escape space 301 , it is preferable that the inner diameter of the second insertion part 320 of the adapter 300 is larger than the inner diameter of the expansion part 311 .

The leak prevention member 330 includes a plurality of O-rings 331 coupled by opening; It is preferable to include; a backup ring 332 of a rectangular cross section coupled between the plurality of O-rings 331 .

The present invention is a piping structure including the piping member (A) and the second pipe (200), wherein the inner diameter of the second pipe (200) is formed smaller than the inner diameter of the first pipe (100) Suggested piping structure.

The present invention provides a piping member and a piping structure using the same, so that a space for evacuation of the excess bond is formed, thereby preventing damage to the pipe due to the excessively applied bond.

1 and 2 are views of Korean Patent Application No. 10-2014-0139646.
3 and 4 are views of Korean Patent Application No. 10-2016-0039894.
5 and 6 are photographs of products in which the prior art is implemented.
7 shows an embodiment of the present invention,
Fig. 7 is a cross-sectional view of a first use state of the first embodiment;
Fig. 8 is a sectional view of the second use state of the first embodiment;
Fig. 9 is a cross-sectional view of the second embodiment;

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

7, the present invention basically, the first pipe 100 made of steel (stainless steel, etc.); In order to couple the second pipe 200 and the first pipe 100 made of synthetic resin material, a first insertion part 310 for inserting one end of the first pipe 100 on the other side is formed, and the second pipe 100 is formed on one side. It relates to a piping member (A) comprising a; the adapter 300 is formed with a second insertion portion 320 for the other end of the pipe 200 to be inserted for bonding.

Here, compared to the inner diameters of the first inserting part 310 and the first pipe 100 , the inner diameter of the second inserting part 320 is formed to be large, and one end of the first pipe 100 is the first of the adapter 300 . 2 It is inserted so as to protrude toward the insertion part 320 to form the protrusion 101 .

In order to form a bond evacuation space 301 for evacuating excess bonds between the outside of the protrusion 101 of the first pipe 100 and the inside of the other end of the second insertion part 320 of the adapter 300 , It is characterized in that the locking projection 302 is formed on the inner circumferential surface of the second insertion part 320 of the adapter 300 so that the other end of the second pipe 200 is caught (to serve as a stopper).

That is, a space is formed between the protrusion 101 of the first pipe 100 and the second insertion part 320 , and the second pipe 200 is inserted into the upper space by being caught by the locking jaw 302 . By preventing this, the bond evacuation space 301 is formed by the above space (FIGS. 7 and 8).

Therefore, due to reasons such as safe adhesion and inexperienced work skill, a larger amount of bond than the amount required for actual adhesion is applied to the other end of the second pipe 200, ), since the extra bond is evacuated to the upper bond evacuation space 301, it is possible to prevent the problem of damage due to the backflow of the extra bond into the second pipe 200 as in the prior art. .

There may be cases in which a larger amount of excess bond is applied compared to the size of the bond evacuation space 301 . In this case, a flow path through which the excess bond can be evacuated is required.

To this end, in a state in which the other end of the second pipe 200 is inserted into the second insertion part 320 of the adapter 300 so that the other end is caught on the locking protrusion 302 , the protrusion 101 of the first pipe 100 is It is preferable that the locking protrusion 302 is formed at a position such that a gap 303 for forming a bond passage is formed between the end and the other end of the second pipe 200 .

On the other hand, even if a large amount of bond is applied to the first pipe 100 made of steel, unlike the second pipe 200 made of synthetic resin, there is no risk of damage due to this.

Therefore, by forming the inner diameter of the first pipe 100 to be larger than the inner diameter of the second pipe 200, the excess bond leaked through the gap 303 does not flow toward the second pipe 200 made of synthetic resin material. , it is preferable to flow toward the first pipe 100 made of steel.

The gap 303 for forming the bond flow path is made by inserting the second pipe 200 only to a certain point by the engaging protrusion 302 formed inside the second insertion part 320 of the adapter 300 .

Therefore, as long as the upper locking jaw 302 has a structure that allows the second pipe 200 to be inserted only to a certain point, it does not matter what structure it takes.

For example, such a clasp 302 may be implemented by the following two embodiments.

First, the second insertion portion 320 of the adapter 300 includes a 2-1 insertion portion 321 formed on one side of the first insertion portion 310 ; A 2-2 insertion part 322 formed on one side of the 2-1 insertion part 321 so that the inner diameter is larger than the inner diameter of the 2-1 insertion part 321; The 302 may be formed by a step structure between the 2-1 insertion part 321 and the 2-2 insertion part 322 ( FIGS. 7 and 8 ).

Second, the locking protrusion 302 may be formed by the protruding protrusion 302a protruding inward from the inner circumferential surface of the second insertion part 320 of the adapter 300 ( FIG. 9 ).

In order to prevent leakage through between the first insertion part 310 of the adapter 300 and the outer periphery of the first pipe 100 , an expansion part 311 is provided on one side of the first insertion part 310 of the adapter 300 . is formed, and the leak prevention member 330 is installed in the expansion part 311 to surround the outer periphery of the first pipe 100, and on one side of the leak prevention member 330, the leakage of the leak prevention member 330 is prevented. In order to prevent it, it is preferable to take a structure in which the separation prevention part 110 is formed to protrude around the outer periphery of the first pipe 100 .

At this time, the above bond evacuation space 301 is formed on one side of the escape prevention part 110, and this separation prevention part 110 is the bond filled in the bond evacuation space 301 flows into the leak prevention member 330 side. It can serve to prevent damage to the leak prevention member 330 at the same time.

The inner diameter of the expansion part 311 and the inner diameter of the second insertion part 320 of the adapter 300 may be the same, but in order to enlarge the bond evacuation space 301, compared to the inner diameter of the expansion part 311 It is preferable that the inner diameter of the second insertion part 320 of the adapter 300 is formed to be large.

The leak prevention member 330 includes a plurality of O-rings 331 coupled by opening; A plurality of O-rings (331) coupled between the backup ring (332) of the rectangular cross section; it is preferable to take a structure including a stable leakage prevention.

A sleeve ring 340 is installed at the other end of the first insertion part 310 of the adapter 300, and the curved protrusion structure is separated from the outer periphery of the first pipe 100 to prevent the sleeve ring 340 from being separated. When the prevention protrusion 120 is formed, the advantage of performing a damping function for preventing an impact caused by a sudden change in water pressure in the pipe is added.

Since the above has only been described with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as noted, should not be construed as being limited to the above embodiments, and It will be said that the technical idea and the technical idea with the root are all included in the scope of the present invention.

A: piping member 100: first pipe
101: protrusion 110: escape prevention part
200: second pipe 300: adapter
301: bond evacuation space 302: jamming jaw
302a: protruding jaw 303: gap
310: first insertion part 311: expansion part
320: second insertion part 321: 2-1 insertion part
322: 2-2 insertion part 330: leak prevention member
331: O-ring 332: backup ring

Claims (9)

a first pipe 100 made of steel;
In order to couple the second pipe 200 made of synthetic resin and the first pipe 100, a first insertion part 310 for inserting one end of the first pipe 100 on the other side is formed, and on one side an adapter 300 in which a second insertion part 320 is formed for the other end of the second pipe 200 to be inserted for bonding;
As a piping structure comprising; the second pipe 200,
Compared to the inner diameters of the first inserting part 310 and the first pipe 100, the inner diameter of the second inserting part 320 is formed to be large,
One end of the first pipe 100 is inserted to protrude toward the second insertion part 320 of the adapter 300 to form a protrusion 101,
A bond evacuation space 301 for evacuating excess bonds is formed between the outside of the protrusion 101 of the first pipe 100 and the inside of the other end of the second insertion part 320 of the adapter 300 . In order to do this, a locking protrusion 302 is formed on the inner circumferential surface of the second insertion part 320 of the adapter 300 to catch the other end of the second pipe 200,
The protrusion 101 of the first pipe 100 in a state in which the other end of the second pipe 200 is inserted into the second insertion part 320 of the adapter 300 so that the other end is caught on the locking protrusion 302 . The stopping protrusion 302 is formed at a position such that a gap 303 for forming a bond passage is formed between the end of the second pipe 200 and the other end of the second pipe 200,
A piping structure, characterized in that the inner diameter of the second pipe (200) is smaller than the inner diameter of the first pipe (100). delete According to claim 1,
The second insertion part 320 of the adapter 300,
a 2-1 insertion part 321 formed on one side of the first insertion part 310;
and a 2-2 inserting part 322 formed on one side of the 2-1 inserting part 321 so that the inner diameter is larger than the inner diameter of the 2-1 inserting part 321;
The locking protrusion 302 is a piping structure, characterized in that formed by a step structure between the 2-1 insertion portion 321 and the 2-2 insertion portion 322. According to claim 1,
The locking jaw 302 is,
A piping structure, characterized in that formed by the protruding jaws (302a) protruding inward from the inner circumferential surface of the second insertion portion (320) of the adapter (300). delete According to claim 1,
An expansion part 311 is formed on one side of the first insertion part 310 of the adapter 300,
A leak prevention member 330 is installed in the expansion part 311 to surround the outer periphery of the first pipe 100,
On one side of the leak prevention member 330, a separation prevention part 110 is formed to protrude around the outer periphery of the first pipe 100 so as to prevent the leakage of the leak prevention member 330,
The bond evacuation space (301) is a piping structure, characterized in that formed on one side of the separation prevention part (110). 7. The method of claim 6,
In order to enlarge the bond escape space (301), the inner diameter of the second insertion part (320) of the adapter (300) is larger than the inner diameter of the expansion part (311). 7. The method of claim 6,
The leak prevention member 330 is,
A plurality of O-rings coupled by opening (331);
A backup ring 332 of a rectangular cross section coupled between the plurality of O-rings 331;
A piping structure comprising a. delete

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