KR101308401B1 - Water pipe connecting assembly having high strength connector - Google Patents

Abstract

PURPOSE: An assembly connecting drain pipes in which a pipe and a high intensity connector are integrated is provided to easily connect pipes and to secure the excellent airtightness relative to the circumferential direction of an O-ring interposed in a connecting part. CONSTITUTION: An assembly connecting drain pipes in which a pipe and a high intensity connector are integrated comprises first and second pipes (1,2) of synthetic resin materials, a connecting head (3), an O-ring (4), a wedge block (5), a gripping unit (6), and a fastener (7). The O-ring comprises a first O-ring (41) and one or more second O-rings (42) and maintains the airtightness of a gap between the connecting head and the second pipe. The wedge block comes in contact with a wedge block inserting groove formed in a flange unit of the connecting head to be inclined. The fastener attaches the gripping unit to face the flange unit of the connecting head by the fastening of a nut member (8).

Description

Water pipe connecting assembly having high strength connector

The present invention relates to a pipe connection assembly, and more particularly, to a sewer pipe connection assembly integrating a pipe and a high-strength connector that can easily perform a pipe-to-pipe connection work and at the same time increase the airtightness and rigidity of the connection. .

Recently, the use of sewage pipes with excellent construction and chemical resistance is increasing rapidly. In particular, sewage pipes with integrated hydraulic connections to reduce manufacturing costs and to be easy to operate in the field construction in sewage pipes with relatively low pressure compared to water pipes. The use of coffins is universal.

In other words, a connector-integrated sewer pipe connection method has been proposed that allows a simple construction and proper airtightness by making a connecting pipe forming an expansion pipe structure at one end of the pipe integrally and fitting the pipe without a separate connection socket. .

However, even if the internal pressure is lower than that of the water supply pipe, the stress due to the external pressure is concentrated in the pipe and the connection part of the pipe in the buried state, and the stress concentration causes fine deformation in the connector of the synthetic resin material. Due to this deformation occurs in the press-fitting rigidity of the O-ring (rubber ring) interposed between the connector and the outer peripheral surface of the pipe, there is a problem that the air tightness is not secured.

For example, when a strong external pressure acts in the radial direction of the connector, stress is concentrated at the connecting portion of the connector integral with the pipe, and an O-ring pressurizing the outer circumferential surface of the pipe inserted into the connector is arranged along the outer circumference of the pipe. Even indentation is not made, which causes a leakage phenomenon as a part of the O-ring indentation rigidity is weakened.

In some cases, when a strong stress is concentrated at the connection part of the connector integrally with the pipe, cracks are generated at the connection point of the pipe and the connector, and serious leakage occurs.

On the other hand, in order to solve the problem of water leakage on the connection part to increase the binding rigidity of the pipe by additionally tightening the reinforcing ring to the connection part, but this increases the manufacturing cost due to additional parts, the assembly process in the field construction There is a problem that it is complicated and takes a lot of time and additional costs.

Korean Patent Publication No. 2011-0079388 Korean Patent Publication No. 0512370 Korean Patent Publication No. 0902886

Therefore, the problem to be solved by the present invention is to provide a sewer pipe connection assembly integrating a pipe and a high-strength connector that can improve the rigidity of the connection portion of the pipe and the connector (connection head).

Another problem to be solved by the present invention is a pipe that can easily perform the connection work of the pipe and the pipe at the same time as well as ensure the excellent air tightness of the circumferential direction of the O-ring interposed at the same time as the connection work of the pipe and It is to provide a sewer pipe connection assembly incorporating a high strength connector.

The present invention for achieving the above object is the first, second pipe;

A coupling end which is integrally coupled to the end of the first pipe, an expansion end formed on the inner circumferential surface and extending from the coupling end to determine the insertion depth of the second pipe, and formed at the end of the expansion end A connection head comprising a flange portion;

An O-ring interposed between the expansion end of the connection head and the second pipe to maintain airtightness;

A wedge block which is press-fitted to the outer circumferential surface of the second pipe and inclined contact with the wedge block insertion groove formed in the flange portion of the connection head;

A pressure ring fitted with the second pipe and having a pressing end contacting the wedge block along an inner circumferential surface thereof; And

One end is provided with a hook that is latched and supported by the flange portion of the connection head, and the other end that penetrates the pressure ring is fastened to the nut member, the fastener for close contact to the flange portion of the connection head in accordance with the fastening of the nut member It is characterized by including the configuration.

Here, the connection portion of the coupling end and the expansion pipe end of the connection head may be embedded in the steel wire for strength reinforcement.

In this case, the strength reinforcing steel wire may be composed of a plurality of ring members or one coil member.

On the other hand, the O-ring includes a first O-ring interposed between the end of the expansion pipe end and the end of the second pipe; And at least one second O-ring interposed between the inner circumferential surface of the expansion pipe end and the outer circumferential surface of the second pipe.

Since the present invention increases the rigidity of the connection head of the connection head which is integrally formed at one end of the pipe, it is possible to secure the equal indentation rigidity of the O-ring interposed in the connection portion from the external force acting from the internal and external pressure of the pipe. It is possible to secure excellent air tightness, and it is possible to complete the connection work between the pipe and the pipe by tightening the fastener and the nut member, and to perform the airtight work to maintain the equal indentation state of the O-ring. This has the advantage of reducing the work time.

1 is an exploded perspective view showing the configuration of the sewer pipe connection assembly according to the present invention.
2 is a cross-sectional view of the sewer pipe connection assembly according to FIG. 1.
3 is a cross-sectional view showing the configuration of a connection head according to the present invention.
Figure 4 is a perspective view showing the configuration of the steel wire for strength reinforcement according to the present invention.
5 is a cross-sectional view showing the configuration of a connection head according to another embodiment of the present invention.

The features and advantages of the present invention described above or not described above will be more apparent from the following description of embodiments of the present invention with reference to the accompanying drawings.

1 and 2, the connection assembly for sewage pipes according to the present invention, the first and second pipes (1, 2), the connection head (3), O-ring (4), wedge block (5), pressure ring (6) ), And a fastener 7.

The first and second pipes 1 and 2 are made of synthetic resin, and are generally extruded from polyethylene (PE) and polypropylene (PP), and the extruded pipe is fixed for convenience of distribution and field assembly. It is cut to length and manufactured. The first and second pipes 1 and 2 have the same diameter as shown, but may be different diameter pipes.

The connection head 3 has an expansion structure so that one end is connected to the end of the first pipe 1 and the end of the second pipe 2 can be inserted into the other end.

The connection head 3 is manufactured in advance in the manufacturing plant, so-called head-integrated pipe, which is integrally coupled by fusion (w) in the state where the ends and ends of the first pipe 1 and the second pipe 2 are brought into contact with each other. After the transfer to the site, the head-integrated first pipe 1 and the second pipe 2 are sequentially connected and assembled.

Referring to FIG. 3, the configuration of the connection head 3 will be described in detail, the coupling end 31 connected to the first pipe 1; The second step to accommodate the insertion end of the second pipe (2) while forming the step (320) to determine the depth to be inserted into the insertion end of the second pipe (2) from the coupling end (31) An expansion pipe end 32 having an inner diameter corresponding to the outer diameter of the pipe 2; And a flange portion 33 to which the wedge block 5 and the fastener 7 to be described later are integrally provided at the end of the expansion end portion 32.

In this way, the connection head 3 is extruded in advance by uniting the coupling end 31, the expansion end 32, and the flange 33.

Here, the connection portion of the coupling end portion 31 and the expansion end portion 32 has a diameter difference with each other, and the stress acts as a portion where internal and external pressures intersect each other on the first pipe 1 and the second pipe 2. Corresponding to this concentrated portion, the connection head 3 according to the present invention comprises a means for preventing stress concentration on the connection portion of the coupling end portion 31 and the expansion end portion 32.

As shown in the illustrated embodiment, the strength of the reinforcing steel wire 35 is formed in the connection portion of the coupling end portion 31 and the expansion pipe end (32).

Referring to FIG. 4, the strength reinforcing steel wire 35 may be formed of one or more ring members or one coil member, as shown on the right side of FIG. 4, as shown on the left side of FIG. 4. On the other hand, as shown in Figure 5, the strength reinforcing steel wire 35 "may be a coil member forming a plate cross-sectional structure having a length in the longitudinal direction of the connection head (3).

As such, the strength reinforcing steel wires 35 and 35 ″ may be formed according to the thickness or length of the connection portion of the coupling end portion 31 and the expansion end portion 32 of the connection head 3. What is necessary is just to embed | buy by changing the diameter or thickness of "), and it does not specifically limit in the cross-sectional shape.

3 and 4, since the coupling end 31 and the expansion end 32 of the connection head 3 maintain different diameters, the coupling end 31 and the expansion end 32 The connecting portion of the) forms a tapered structure gradually increasing in diameter, the strength reinforcing steel wire (35) embedded in the connecting portion also has to satisfy the gradually increasing diameter structure. As a result, the strength reinforcing steel wire 35 according to an embodiment of the present invention also accurately buried in the inner center of the connection portion forming the tapered structure of the coupling end portion 31 and the expansion end portion 32 of the connection head (3) In order to be able to maintain, a plurality of ring members having different diameters or spiral structures as the diameter gradually increases may be made of a coil member.

In addition, an inner ring of the expansion end 32 is formed with an O-ring groove 321 on which the O-ring 4 to be described later is mounted.

In addition, the flange portion 44 has a wedge block insertion groove 331 having an inclined surface 3310 to which the wedge block 5 to be described later is formed at the end of the inner circumferential surface thereof, and the fastener 7 to be described below is in contact with the flange portion 44. The locking jaw 330 is formed on the other side of the outer diameter surface opposite to the wedge block insertion groove 331.

Subsequently, the O-ring 4 is interposed between the expansion end 32 of the connection head 3 and the insertion end of the second pipe 2 so as to provide a clearance between the connection head 3 and the second pipe 2. As a member for securing the airtightness, the O-ring 4 according to the embodiment of the present invention includes a first O-ring 41 and a second O-ring 42.

The first O-ring 41 is interposed between the end 320 of the expansion pipe end 32 and the insertion end of the second pipe 2, and there is a gap between the expansion pipe end 32 and the second pipe 2. Maintain confidentiality first.

The second O-ring 42 is interposed between the inner circumferential surface of the expansion pipe end 32 and the outer circumferential surface of the insertion end of the second pipe 2 to seal the air gap between the expansion pipe end 32 and the second pipe 2. Will block the secondary.

Here, as shown in FIG. 2, the second O-ring 42 is formed on one surface of the body 420 and the body 420 seated in the O-ring groove 321 of the expansion end portion 32 and the second pipe It consists of the elastic blades 421 which contact the outer peripheral surface of (2). At this time, the elastic wing 421 maintains the inclined state in the direction in which the insertion end of the second pipe (2) is inserted, whereby the O-ring groove of the expansion end (32) in advance before insertion of the second pipe (2) The insertion of the second pipe (2) is allowed in the state in which the second O-ring 42 is seated on the 321, and then when the end of the second pipe (2) is in close contact with the first O-ring 41 is completed 2, the structure which presses the outer peripheral surface of the pipe 2 strongly is achieved.

Preferably, the first and second O-rings 41 and 42 may be made of a water expandable resin.

Subsequently, the wedge block 5 is inserted into the wedge block insertion groove 331 formed in the flange portion 33 by being fitted into the second pipe 2 to contact the connection head 3 and the second pipe ( It is possible to maintain the central axis of 2) coaxially, and to block the phenomenon that the second pipe 2 tries to escape in the opposite direction from the internal and external pressures.

The wedge block 5 is provided on one side with a corresponding inclined surface 51 to make a surface contact with the slope 3310 of the wedge block insertion groove 331 formed in the flange portion 33 of the connection head (3).

Moreover, the fall prevention protrusion 52 is provided in the inner peripheral surface of the wedge block 5 which contacts the outer peripheral surface of the 2nd pipe 2. As shown in FIG. The fall prevention protrusion 52 is capable of forcibly fitting to the second pipe 2, and maintains an inclined shape to one side so that separation from the second pipe 2 is blocked after being fitted.

In addition, the pressure stage 53 is applied to one side of the pressure surface 53 to which the pressure stage 61 of the pressure wheel 6 to be described later is contacted so that the pressure stage 61 of the pressure wheel 6 acts at an accurate position along the circumference. 61 is formed to form a groove structure that is inserted and coupled.

The wedge block 5 is connected to the head 3 and the second pipe 2 through the inclined surface 51 and the fall prevention protrusion 52 without being damaged or deformed by the pressing force transmitted from the pressure wheel 6 to be described later. It is made of a resin material or metal material that is harder than the connection head 3 and the second pipe 2 so as to effectively transmit the pressing force provided from the pressure ring 6 toward the ().

Subsequently, the pressure wheel 6 is configured such that the wedge block 5 provides a pressing force toward the connection head 3 so as to maintain the connection state of the first and second pipes 1 and 2 and the indentation rigidity with respect to the O-ring 4. It is a member.

Specifically, the pressure ring 6 has a central through hole to accommodate the second pipe 2 therein, and the pressing end 61 is formed along the circumference of the central through hole to contact one side of the wedge block 5. It is formed to extend from the pressing end 61 is formed to maintain a substantially 'b' shaped cross section to surround the flange portion 33 of the connection head (3).

In addition, a plurality of through holes are formed around the pressing ring 6 so as to allow the fastener 7 to be described later to pass through. In the illustrated embodiment, two through holes are provided corresponding to the two fasteners 7.

Subsequently, the fastener 7 is a member for connecting and supporting the pressure ring 6 and the connection head 3, and is formed at the body 71 and one end of the body 71 to form a plan of the connection head 3. Screw 72 is screwed to the nut member 8 by passing through the through-hole formed in the other end of the body 71, the hook 72 is caught on the locking step 330 formed on the branch portion (33) The processing part 73 is formed.

The body 71 of the fastener 7 according to the embodiment of the present invention has a square cross-sectional structure, as shown in FIG. 1, and correspondingly, the through hole of the pressure wheel 6 also has a square cross-sectional structure. do. Thus, since the body 71 of the fastener 7 formed to be fitted with the rectangular through-hole formed in the pressure ring 6 constitutes a rectangular cross-sectional structure instead of a circular shape, the fastener ( When 7) is screwed with the nut member 8 can be prevented from interlocking in the fastening direction of the nut member (8), thereby, in the fastening process of the fastener 7 and the nut member (8) The fastening operation is possible without considering the positional change of the fastener 7 carefully, and above all, the hook 71 of the fastener 7 is always uniform in the locking step 330 of the flange portion 33. The contact area can be maintained, and thus an equal fastening state can be ensured for each of the plurality of fasteners 7 arranged along the circumference of the pressure ring 6. Therefore, even if a small number (shown as two) fasteners 7 are provided along the circumference of the pressing wheel 6 as shown, an advantage can be maintained evenly and tightly coupled along the circumference of the pressing wheel 6. .

Referring to the assembly and operation of the connection assembly for sewer pipes as described above are as follows.

First, the first and second pipes (1, 2) is integrated in the manufacturing plant with one connection head (3) at one end is completed and then transferred to the phenomenon, after the connection is coupled to the first pipe (1) in the field The first O-ring 41 and the second O-ring 42 are respectively inserted into the stepped portion 320 and the O-ring groove 321 of the head 3, and the pressing wheel 6 and the wedge are inserted into the insertion end of the second pipe 2, respectively. After inserting the block 5, the insertion end of the second pipe 2 is inserted toward the connection head 3 of the first pipe 1.

The insertion process of the second pipe 3 to the connection head 3 is completed at the moment when the end of the second pipe 2 comes into contact with the first O-ring 41.

At this time, the elastic wing 421 of the second O-ring 42 is in contact with the structure to press the outer peripheral surface of the second pipe (2), the wedge block 5 is the wedge block insertion groove 331 of the flange portion 33 Is inserted into the inclined surface 51 of the wedge block 5 is in contact with or close to the slope 3310 of the wedge block insertion groove 331.

As described above, after the rough insertion process of the second pipe 2 to the connection head 3 is completed, the fastener 7 is inserted into the through hole of the pressure ring 6, and then the screw of the fastener 7 is Tighten the nut member 8 against the study 73.

When the nut member 8 is strongly tightened with respect to the fastener 7 with the pressure wheel 6 interposed therebetween, the nut member 8 is pressed against the pressure wheel 6 while being pressed against the fastener 6. The hook 71 of 7) is pressed against the engaging jaw 330 of the flange portion 33 so that the connection head 3 and the pressure ring 6 are in close contact with each other.

As a result, the pressing end 61 of the pressing ring 6 is strongly pressed on one side pressing surface 53 of the wedge block 5, the wedge block 5 is a wedge block insertion groove 331 in the flange portion 33 The inclined surface 51 formed in the wedge block 5 while being deeply inserted into the wedge block insertion groove 331 is in contact with the slope 3310 formed in the wedge block insertion groove (3). The fall prevention protrusion 52 formed on the inner circumferential surface of the wedge block 5 while being guided to the slope 3310 of 331 may press the outer circumferential surface of the second pipe 2 so as to block reverse departure of the second pipe 2. do.

In addition, the wedge block 5 has a center axis of the connection head 3 and a center of the second pipe 2 in the pressing process in which the inclined surface 51 is in close contact with the slope 3310 of the wedge block insertion groove 331. Since the structure of exactly matching the shaft is satisfied, the second O-ring 42 seated on the expansion end portion 33 of the connection head 3 can also maintain an equally pressurized state with respect to the outer circumferential surface of the second pipe 2. .

In addition, the axial direction of the wedge block 5 moving on the slope 3310 of the wedge block insertion pressure groove 331 is interlocked with the moving distance so that the second pipe 2 also moves inward (axial direction) of the connection head 3. Deeply moved, the end of the second pipe (2) is to strongly press the first O-ring 41 interposed on the step (320) of the connection head (3).

As a result, the field worker roughly inserts the insertion end of the second pipe 2 into the connection head 3, and then only tightens the nut member 8 against the fastener 7. The final assembly of (2) is completed, and at the same time, the first and second O-rings 41 and 42 interposed between the connection head 3 and the second pipe 2 are strongly pressed to complete the airtight operation. do.

In this state of assembly is completed, even if the external pressure acts, the coupling end portion 31 of the connection head 3 is connected to the first pipe 1 and the connection head 3 is coupled to the second pipe 2 Even if the stress is concentrated in the region between the expansion end portions 32, the structure of increasing the rigidity of the connecting portion by the strength reinforcing steel wire 35 is satisfied, so that the lateral rigidity of the connecting head 3 can be further strengthened. In this way, it is possible to secure an excellent indentation rigidity in the circumferential direction of the O-ring 4 sandwiched between the connection head 3 and the second pipe 2 to maintain excellent airtightness.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

(1): first pipe (2): second pipe
(3): connection head (31): coupling end
(32): Expansion end 33: Flange
(35): steel wire for strength reinforcement (4): O-ring
(41): first O-ring 42: second O-ring
(5): wedge block (6): push wheel
(61): pressurized end (7): fastener
(71): body 72: hanger
(73): threaded part (8): nut member

Claims (6)

First and second pipes 1 and 2 made of synthetic resin;
A coupling end 31 integrally coupled to an end of the first pipe 1 and a step 320 are formed on an inner circumferential surface to determine an insertion depth of the second pipe 2, and from the coupling end 31. Strength reinforcement embedded in the expansion end portion 32 is formed to extend, the flange portion 33 formed at the end of the expansion end portion 32, and the connection portion of the coupling end portion 31 and the expansion end portion 32 A connection head 3 comprising a steel wire 35;
Between the first O-ring 41 interposed between the step 320 of the expansion end 32 and the end of the second pipe 2, and between the inner peripheral surface of the expansion end 32 and the outer peripheral surface of the second pipe 2 An o-ring (4) composed of one or more second o-rings (42) interposed to maintain airtightness between the connection head (3) and the second pipe (2);
A wedge block 5 fitted to the outer circumferential surface of the second pipe 2 and contacting the wedge block insertion groove 331 formed in the flange portion 33 of the connection head 3 in an inclined manner;
A pressure ring 6 fitted with the second pipe 2 and having a pressing end 61 in contact with the wedge block 5 along an inner circumferential surface thereof; And
One end is provided with a hook 72 which is latched and supported by the flange portion 33 of the connection head 3, and the nut member 8 is fastened to the other end penetrating the pressure ring 6, the nut member 8 Fastener 7 for close contact with the pressure ring 6 toward the flange portion 33 of the connection head (3) in accordance with the fastening of the;
Sewer pipe connection assembly integrally comprising a pipe and a high strength connector configured to include. delete The method according to claim 1,
The strength reinforcing steel wire (35) is a sewer pipe connection assembly integrating a pipe and a high strength connector, characterized in that consisting of a plurality of ring members or one coil member. delete The method according to claim 1,
One side of the pressing surface 53 of the wedge block 5 in which the pressing end 61 of the pressure ring 6 is in contact with one side of the pipe, characterized in that the groove is formed in which the pressing end 61 of the pressure ring 6 is inserted; A sewer pipe connection assembly incorporating a high strength connector. The method according to claim 1,
The inner circumferential surface of the wedge block 5 in contact with the outer circumferential surface of the second pipe 2 integrally integrates the pipe and the high-strength connector, characterized in that the anti-falling protrusion 52 is formed to prevent the reverse separation of the second pipe 2. Sewer pipe connection assembly.

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