KR102229309B1 - a assembly system of a fitting for a flexible joint - Google Patents

Abstract

Conventionally, a flexible pipe joint made of stainless steel as a connection pipe for installing a sprinkler head in the firefighting pipe market where metal pipes dominated has been widely and conveniently used with a high degree of completion. Today, when flexible joints are used for CPVC pipes, which are newly used as fire fighting pipes, many problems are exposed.
In a flexible pipe joint that uses the firefighting pipe as a connection pipe connecting the branch pipe of the CPBC pipe and the sprinkler head, the intermediate connector and the flexible pipe are economically and defect repairable. Regarding the coupling structure of the connector, the eccentric load received from the bottom of the flexible joint due to the specificity of the site and the multi-stage airtight stage formed on the basis of the inner tube of the body by installing the coupling component on the inner tube of the intermediate connector made of a CP Busy socket. It relates to a structure and a sprinkler joint joint connection structure for a function that prevents the problem of airtightness due to the nature of the CPVC, which is easily stretched and deformed over a long period of time.

Description

Connection structure of flexible joint {a assembly system of a fitting for a flexible joint}

In the flexible joint, the pipe is connected to the intermediate connector (1) including nipples, sockets, tees, elbows, etc., which gives flexibility by forming a corrugation that crosses the mountain and valley by welding, or draws a packing for airtightness between the pipes. In order to block contact corrosion between dissimilar metals, an insulator member is installed to form a combined unit consisting of a coupling nut and used as a connecting pipe to connect to general pipes. This connecting pipe is used in a pipe requiring a length change, direction change, vibration and shock absorbing function, which are the characteristics of the flexible pipe 3.

Due to this characteristic, it is widely used as a connecting pipe connecting the branch pipe of the fire fighting pipe and the sprinkler head. Today, the use of resin pipes made of CPVC is spreading in domestic fire pipes, so flexible joints are naturally widely used as branch pipes of CPVC's resin pipes.

In order to apply a flexible joint based on a flexible pipe as described above to a branch pipe made of a resin material used for firefighting piping, the present invention relates to a CPBC pipe having a different material on one side of the flexible joint, which is a metal material. The present invention relates to a connection structure of a flexible joint that forms a unit assembly with an intermediate connector made of a CP Busy socket to a flexible pipe joint for convenient interconnection and coupling.

The flexible pipe (3) of the flexible joint, which is mainly used for fire fighting piping, is a product with low roundness, and the straight pipe has a large deviation in the size and shape of the diameter, and the structural strength due to the thin pipe is weak. Therefore, it is an unsuitable structure to secure airtightness through compression by installing packing on the outer circumferential surface of a flexible pipe. The conventional typical flexible structure is that the connection part formed on the flexible pipe and the crimping part of the intermediate connector form an airtight structure by crimping by screwing the coupling nut 5 installed on the outer circumferential surface of the flexible pipe with the packing ring 4 interposed therebetween. It is the joint structure of the joint. At this time, to prevent contact corrosion between dissimilar metals, an insulator 6 is installed between dissimilar metals.

In the resin pipes made of CPVC that are used today, the conventional method is used as shown in Fig. 4, and the branch pipe is inserted by inserting a CPVC nipple with an intermediate connector into the branch pipe with a male screw in the past. In order to be able to do so, a socket with an insertion hole without a screw is transformed into a bonded adhesive structure and used. However, at the beginning of the introduction, various invisible problems occur due to heterogeneous materials such as metals and resins, and defects are constantly occurring due to technical deviations of workers in each intermediate connector, where there are differences in the size of the coupling nut and each company. Moreover, the resin pipe and the packing ring both have strong thermal elasticity, and especially in the low temperature season, if the packing flexibility is rapidly deteriorated, the sealing performance is remarkably lowered, but the structure that compresses the packing ring is made of resin material CPVC. It is used in a structure where the weakest and narrowest end section of the socket forms the joint surface and presses it. This is because the conventional structure uses a strong metal-to-metal material, and due to the screw connection due to the public structure, the structure that first connects the flexible pipe and the separated intermediate connector socket to the firefighting branch, and then connects the flexible joint as it is. Many problems are occurring.

In view of the characteristics of the constructional characteristics of the construction, the characteristics of the connection pipe of the firefighting pipe, which is subject to continuous downward bias load and constant water pressure is applied, the conventional structure can support the problem of airtightness even with a slight impact, but soft resin. It is a very inadequate structure to use a CPBC socket that uses a material and connects it with a bond.

In recent years, to improve this, a long-formed packing is installed on the outer circumferential surface of the straight pipe part of the flexible pipe, or a plurality of packing grooves (34) are formed on the outer circumferential surface of the straight pipe part to insert and install the packing ring. Products in which the middle connector of the resin socket is pulled outward to form an airtight structure are being introduced. However, this structure has no or too poor contrast for the flexible pipe and the fixed structure. As mentioned above, due to the structural characteristics of the construction site, the resin socket is likely to increase and deform due to the downward bias load and water pressure that are strongly transmitted to the flexible joint after construction.At the same time, the rigid material of the flexible pipe, which is a metal material, is installed in a bent state. As for the characteristic, it is almost impossible to maintain it in a horizontal state that can be fully coupled to the CPBC socket that is bonded to the branch pipe.

This structural distortion is a structure that acts as a cause of long-term leakage because the flexible tube and the socket are separated. Moreover, it has a structure that is difficult to repair even though leaking defects due to various causes occur, so a very fatal problem that must be cut and replaced is expected. In addition, as mentioned above, since the roundness of the flexible pipe used for fire fighting piping is very low, it is difficult to secure airtightness of the packing or packing ring installed on the outer circumferential surface. A more robust structure should be provided for fire fighting piping in harsh and poor conditions. Nevertheless, they do not have a clear fixing structure or have a poor structure to prevent the resin socket from moving.

The present invention secures airtightness by compressing metal and a resin having low strength and high thermal expansion between the packing rings under construction conditions in which the conventional airtight structure has severe external impact and the distorted structural power of the flexible pipe is inevitably exhibited. In the field where the work quality of workers with many variations in use is required, it tries to eliminate the contradiction of compressing the packing by relying solely on the end face of the weak material CPBC socket. At the same time, the packing, which is an airtight last bulwark installed on the critical line between the fluid inside the pipe and the outside, is intended to achieve a structure that is safe from various deformations and bends and to achieve a multi-level barrier structure.

In addition, in order to solve this problem, the roundness of the flexible pipe used for fire fighting piping is inevitably low, and in light of the reality of the field where the eccentric load is constantly distorted structural force and obstructs the joint relationship, a packing that depends entirely on the horizontal outer circumferential surface is installed. The method of doing this is a secondary confidential structure in the judgment that there is a structural problem. And in the structure that is continuously affected by the bias load after installation, especially since it is a ductile intermediate connector made of resin, there is a possibility of leakage due to deformation, so that the effect of such deformation on the airtight structure is minimized, and at the same time, the flexible pipe is not unfolded. Ryo tries to achieve a structure that prevents the tendency of the structural force to escape from the resin socket.

In addition, with the structure in which only the end of the CP Bus socket contacts the packing ring and the rest of the absolute area is in close contact with the metal surface, there is a lot of possibility that the sealing with high elasticity and the packing ring will be vulnerable to weather and temperature. You need to improve.

At the same time, the coupling structure of the coupling nut, which had a lot of defects due to severe deviation from the conventional piping manufacturers, was constructed to facilitate construction and excellent construction quality by providing a coupling structure that eliminates such structural problems in the manufacturing and supply stage of flexible pipes. I want to achieve it. And no matter any reason, no matter when the possibility of a defect occurs at any moment, it tries to reflect a repair structure that can reduce the damage to a minimum.

To solve this problem, conventionally, only the end surface of the CPBC socket was used as the bonding surface on the packing ring in the coupling nut. In the present invention, not only the packing ring inside the body of the CPBC socket, but also the flange for fixing the flexible pipe, and conventionally, In place of the coupling nut 5 exposed to the outside, it is intended to achieve a structure in which even ring bolts that fix the flexible pipe are incorporated. In addition, as shown in FIG. 4, a structure that provides a sufficient width to minimize the fluidity is attempted to solve the problem that the width of the installation pipe portion 7 of the conventional coupling nut is too short to be vulnerable to spatial fluidity.

In order to maintain a stable airtightness, conventionally, the critical line between the fluid in the pipe and the outside was made in a coupling nut, which is an auxiliary competition connector outside the pipe, and was exposed. Will be installed. The vertical junction surface and the horizontal inner circumferential surface of C.P.V.C can be used as a junction, and this horizontal inner circumferential surface can form two junction surfaces as the boundary of the fixed flange of the flexible tube.

The inner circumferential surface of the CPVC is formed three-dimensionally with the bonding structure on both sides of the outer rim and outer circumferential surface of the fixing flange 33 of the flexible pipe to alleviate the biased load and the distorted structural force of the flexible pipe, as well as the flange for fixing the flexible pipe. It is a multi-level three-dimensional defense structure that does not have vertical and horizontal fluidity due to the joint relationship between the ring bolt and the crimping, and finally, the compression force of the packing ring is solved with a structure that protects the most securely.

Conventionally, there is a problem of deterioration of the function of the packing ring affected by the strong thermal conductivity of the metal by the coupling nut installed in the packing ring structure in which the three vertical, lower horizontal and upper horizontal surfaces are in close contact with the metal surface. Is to be solved with the built-in structure of the CPBC socket of the present invention.

In order to solve the problem that the conventionally introduced structure is to install a packing on the outer circumference of a flexible tube and press it with a socket, but to solve the problem that a poor fixing structure is chosen, a screw is formed on the inner circumferential surface of the socket of CP Bus to form an outer screw. I am trying to solve it with one ring bolt and a tightening structure.

The core of the coupling structure of the flexible CPBC connector installed on the flexible pipe used for fire fighting piping is to achieve a structure that guarantees airtightness by minimizing defects even under excessive tightening of workers at the site of use and the strong unbalanced load of the flexible pipe.

The present invention is a structure in which packing is installed in the most structurally stable part of the CPBC socket, and provides a very stable airtightness measure by mounting multi-stage packing rings in various directions such as vertical, horizontal and inclined against external distortion. I'm doing it. By minimizing the possibility of damage to the bonding surface during the packing process, it has a safe structure even for excessive tightening by on-site construction workers.

In order to prevent deformation and fluidity due to various distortions according to the characteristics of the site, a structure that prevents three-dimensional deformation and distortion by forming a vertically crimping relationship with a joint that varies in height horizontally is used to prevent any deformation and fluidity. It has a multi-level horizontal maintenance structure inside the socket body of CPVC to achieve a stable packing structure.

The first and second packing rings are built into the body of the CPBC socket, so that it is less affected by external temperature changes, and the accessories are also built-in, so that these too are affected by the temperature. You will receive less. The newly introduced structure of installing a packing ring on the outer circumferential surface of the straight pipe part of the flexible pipe is used as a simple auxiliary, while a clear fixing device by screws is provided, so it is safe and convenient structure with reinforcement that can be repaired in case of airtightness problems. . In addition, it is possible to reduce the cost by replacing the conventional coupling nut made of metal in an excessive size with resin for a small ring bolt.

To this end, the structure in which the packing ring is installed on the outer peripheral surface of the flexible pipe with low eccentricity is used as an auxiliary means because it is vulnerable to the poor conditions of the firefighting pipe, and the protruding mountain vertically outward to the outer peripheral surface of the flexible pipe is horizontally compressed. The packing ring is installed on the inside and outside of the flange and a compression structure is formed, and at the same time, the body and the coupling structure of the CPM socket are installed on the outer circumference of the flexible tube and the rim of the fixed flange to minimize the vertical flow and to achieve only horizontal movement. The horizontal fluidity is to achieve a structure in which the joint surface of the CP Busy socket and the ring bolt are controlled through the mutual tightening action between the fixed flange of the flexible pipe. In this way, the packing ring can form a stable structure from distortion and deformation forces in any direction, thereby stably preserving airtightness. In particular, the central part for compressing the packing ring is in the center of the body, and this is the strongest structure in terms of the structure of the intermediate connector, and the width of the insertion tube installed on the flexible tube and the outer circumferential surface should be widened to reinforce the soft fragility of the resin tube. Therefore, it has a remarkable advantage in minimizing up-and-down liquidity. As shown in Fig. 4, the width of the installation pipe portion 7 of the conventional metal coupling nut is generally only 4 mm (mm), whereas the present invention has a width that is several times the width. With this structure, it is a very reliable structure because the body of the CP Busy socket provides the basic basis of this coupling structure to the coupling structure that safely protects the packing ring from various external distortions and deformations occurring at the construction site. .

1 is a representative view of the present invention.
2 is an application diagram of a representative diagram.
Figure 3 is another exemplary view of the present invention.
Figure 4 is a conventional exemplary diagram.

The present invention relates to a coupling structure for connecting a flexible pipe 3 made of a metal material and a CPM pipe made of a resin material to an intermediate connector 1 made of a CPC socket. Conventionally, the end surface of which a male thread 16 is formed on the outer peripheral surface of the insertion part of the CP Busy socket in a weak structure in which the packing ring 4, which is the final critical line of leakage, is crimped within the auxiliary coupling nut outside the pipe through which the fluid flows. As shown in Fig. 4, the bay was used as the bonding surface 14, and it was an airtight structure dependent on compression. In particular, the flexible pipe joint, which is used as a connector in fire fighting piping, is filled with a fire fighting solution that receives pressure at the same time as the strong structural deformation of the flexible pipe that is bent and the socket connected to the branch pipe of the fire fighting pipe is affected by an offset load downward. Will be strongly received. In addition to these poor conditions, the CP Busy socket made of a resin to be applied to the present invention is very fragile and easily deformed due to the characteristics of the material. Therefore, if this distorted force attacks one place of the joint intensively and persistently for a long period of time, the probability of defects is very high.

In order to have a safe coupling structure under such circumstances and conditions, the present invention has a structure in which the component parts are internally coupled inside the body of the intermediate connector of the CPBC socket, so that the critical line of defense between the fluid and the outside is multi-stage inside the body, which is the passage of the fluid. It is intended to be formed to prepare for leakage, and at the same time, it is intended to form a sturdy and thorough defense device against powerful elements that obstruct airtightness in the vertical, left and right directions and front and rear of the various structural distortions and deformations of the construction sites listed above.

Such a coupling structure is roughly divided according to the structure installed inside the fixed flange 33 of the outer circumferential surface of the flexible pipe. As shown in Figs. 1 and 2, one is a ring bolt (2) on the outer circumferential surface of the straight pipe part 31 of the flexible pipe. The installation and the other, as shown in Fig. 3, are divided into installing the CPVC on the outer circumferential surface of the flexible tube. That is, the method of installing a ring bolt composed of a male screw 21 and a polygonal polygonal polygon 22 on the outer circumferential surface of the straight pipe on one side of the flexible pipe. An insertion part 12 for inserting a CPVC pipe and a protruding stopper 15 member for stopping the pipe insertion are formed, and a female thread is formed on the connected inner circumferential surface, and the inner side thereof is a packing ring 4 and a bonding surface for pressing ( 14) formed protruding jaws 11, and the other side of the body is formed with an installation pipe part 7 that is installed by inserting a straight pipe of the flexible pipe, and a polygonal polygonal part 17 member is formed in the middle of the outer circumferential surface of the body. The coupling structure of the present invention can be largely divided by a method of installing the intermediate connector 1 made of a CPM socket on the outer circumferential surface of the flexible tube.

The key functional difference of this structure is that after construction, the entire coupling part can be separated, disassembled, and recombined from the intermediate connector of the CPBC socket, so that the first packing ring 41, the second packing ring 43, and the third The structure that can replace all of the packing rings 44, but the latter differs in that there is no method except for the entire replacement of the CP Busy socket except for the first packing ring.

In the former case of installing the ring bolt 2 on the outer circumferential surface of the flexible pipe as shown in Figs. 1 and 2, one side of the body is stopped by inserting the insert 12 and the pipe to insert the CPVC pipe on the inner circumferential surface. A protruding stopper (15) member is formed for the limit of the body, and a female thread is formed on the inlet side on the other side of the body, and a protruding jaw is formed on the inner side to form a joint surface (14) for compressing the packing ring, and a polygonal portion is formed in the middle of the outer circumference of the body. Formed as an intermediate connector made of a CP bush socket having a polygonal portion 17 formed of a member to form a coupling relationship with the ring bolt. A packing ring is installed between the protruding joint surface of the intermediate connector and the fixed flange joint surface of the flexible pipe to form a connector joint structure of the flexible joint as a unit assembly.

In this method, a third packing ring 44 is inserted and installed by forming a packing groove 34 of an annular concave groove on the outer circumference of the straight pipe part of the flexible pipe, and at the same time, between the threaded part and the polygonal part of the ring bolt. The second packing ring 43 is installed by forming a concave member to secure a secondary airtight structure to achieve a three-level airtight structure, or extend the first packing ring horizontally between the inner circumferential surface of the ring bolt and the outer circumferential surface of the flexible pipe. Thus, the modified first packing ring can be installed and used. However, the structure of the packing has a contradiction as a connector for resin piping in view of the efficient line contact as possible.

In the latter case as shown in Fig. 3 where the CPVC socket is installed on the outer circumferential surface of the flexible pipe as another method, the structure of the CPVC socket is used, and one side of the body has an insertion part for inserting a CPVC pipe. A protruding stopper is formed, and a female thread is formed on the inner circumference of the protruding jaw, and a protruding jaw is formed on the inner circumference of the protruding jaw, and the other side of the body is placed in the middle of the outer circumferential surface of the body with an installation pipe that is inserted into the straight pipe of the flexible pipe. It is a structure to be installed on the outer circumference of the straight pipe part of the flexible pipe by forming an intermediate connector made of a CP Bus socket with a polygonal member on a part.

In this structure, the CPBC socket is installed on the outer peripheral surface of the flexible tube. In addition to the above, a second packing ring that forms a screw groove on the outside of the rear surface of the connection surface and the installation pipe part 7 of the CPBC socket is inserted and installed in sequence. Consisting of the provided ring bolts, the ring bolt is screwed into the body of the CPBC socket to provide auxiliary airtightness. The joint surface of the ring bolt and the fixed flange of the flexible tube, and the screw of the ring bolt and the inside of the body of the CPBC socket. The connection structure secured by the screw blocks the high-pressure fluid inside the pipe before it reaches the packing ring, so that the pressure is lowered to the extent that it soaks into the fine gap formed by the joint part, and forms a reinforcement structure by a coupling structure that secures airtightness. The first packing ring may be provided with a packing ring extending horizontally so as to be installed between the inner circumferential surface of the installation pipe part of the bushing socket and the outer circumferential surface of the flexible pipe, and the packing groove part 34 with an annular concave groove on the outer circumferential surface of the flexible pipe. ) By forming a member and inserting and installing a third packing ring, it is also possible to secure auxiliary airtightness by compressing the installation pipe portion of the CP Busy socket.
On the other hand, between the fixing flange of the flexible pipe and the ring bolt, a washering member 42 is installed and an intermediate connector made of a CPM socket that is melt-bonded is fixed to the pipe, and when rotation of the flexible pipe is required, packing by loosening the screw. It may be provided with a device that reduces the degree of adhesion to prevent leakage of water.

CM socket (1), ring bolt (2), flexible pipe (3), packing ring (4), coupling nut (5), insulator (6), installation pipe part (7), polygon part (17), The packing groove 34, the first packing ring 41, the washer ring 42, the second packing ring 43, and the third packing ring 44.

Claims (8)

delete A flexible pipe formed with a straight pipe portion and a corrugated portion and a fixed flange formed in the straight pipe portion; Ring bolts having a polygonal portion of a polygonal groove on the inner peripheral surface of the outer circumferential surface passing through the male screw in a ring shape; One side of the inner tube of the body is provided with an insertion part for pipe insertion, a female thread that connects with the ring bolt, and a protruding jaw that forms a joint surface for pressing the first packing ring, and the other side of the body inner tube has the inner circumferential surface as the installation tube part, and a part of the middle of the outer circumferential surface of the body An intermediate connector made of a CPBC socket formed with a polygonal member on the side; And it consists of the first packing ring
On the inside of the fixed flange of the outer circumference of the straight pipe part of the flexible pipe, an intermediate connector made of a CPBC socket and the first packing ring are installed, and a ring bolt is installed on the outside of the fixed flange, so that the ring bolt and the CPBC socket depend on the fixed flange. Flexible joint connection structure, characterized in that it is built into the body of the CPVC with a screw-tightening structure.




delete delete The method of claim 2,
A second packing ring; An intermediate connector made of a CP Busy socket formed with a protruding stopper member; And it consists of a washering member
A connector coupling structure of a flexible joint, characterized in that a second packing ring, a washer ring member, and a ring bolt are sequentially installed on the outside of the fixed flange to be built into the body of the Sipbus.
The method of claim 2,
Consisting of a third packing ring, a washer ring member, and a ring bolt that are sequentially inserted and installed by forming a groove with a screw on the outside of the rear surface of the connection surface in the installation pipe part of the CPM socket, the ring bolt is attached to the body of the CPM socket. Connection structure of flexible joint, characterized in that it is a secondary airtight structure by tightening screws. The method of claim 2,
A connector coupling structure of a flexible joint, characterized in that it has a packing ring in which the first packing ring is extended horizontally so as to be installed between the inner circumferential surface of the installation pipe part of the CP Busy socket and the outer circumferential surface of the flexible pipe.
The method of claim 2,
A connector coupling structure of a flexible joint, characterized in that an annular concave member is formed on the outer circumferential surface of the flexible pipe and a third packing ring is inserted and installed to form an auxiliary airtight structure by compressing the installation pipe portion of the CP Busy socket.

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