KR100531959B1 - Connection pipe for water pipe and manufacturing method thereof - Google Patents

Abstract

The present invention relates to a joint pipe used for joining water and sewage pipes, comprising a joint pipe body (10) composed of a GRP pipe having a predetermined length and having an inner diameter larger than the outer diameter of the water and sewage pipe; It is adhered to the inner surface of the fitting pipe body 10, the first locking jaw 21, the first watertight blade 22, and the second watertight blade 23 is the length of the pipe body 10 A first watertight rubber ring 20 sequentially formed from the outer to the inner side in a direction; Spaced apart from the first watertight rubber ring 20 at predetermined intervals and adhered to an inner surface of the fitting tube body 10, and a stopper 31, a third watertight wing 32, and a fourth watertight wing. (33) and the second locking step 34 is characterized in that it comprises a second watertight rubber ring 30 formed sequentially from the inner side to the outer side in the longitudinal direction of the fitting pipe body (10).

Description

Joint pipe for water and sewage pipe connection and manufacturing method thereof

The present invention relates to a joint pipe used for joining the water and sewage pipe consisting of a GRP pipe and a method of manufacturing the same.

As a joint device used for joining water and sewage pipes composed of GRP pipes, couplings (joint pipes) used for joining GRP pipes of the same pipe type and other pipe types such as GRP pipes and cast iron pipes or steel pipes are used. There is a flange.

10 is a cross-sectional view showing a joint pipe used to join a water pipe or sewage pipe (5, 5 ') consisting of a conventional glass fiber reinforced plastic pipe (GRP) pipe.

As shown, the conventional joint pipe was manufactured by inserting a watertight rubber ring (2, 3, 4) after processing a groove on the inner surface of the joint pipe body (1) consisting of a GRP pipe. Therefore, when the groove processing, cracks occurred in the joint pipe main body 1 and leakage occurred as the strength decreased.

In addition, since the grooves are processed on the inner surface of the fitting body 1, the thickness of the pipe must be made thick to maintain the strength of the fitting tube, which increases the manufacturing cost, and the rubber inserted into the inner surface of the fitting body 1 When high water pressure acts on the rings 2, 3, and 4, there is a problem in that watertightness of the joint is inferior because a sufficient internal pressure cannot be formed.

The present invention was created in view of the above-mentioned problems of the prior art, and does not need to be grooved inside the pipe separately to attach the watertight rubber ring, and even if a separate curved pipe is not used, the water supply and sewage pipe It provides a joint pipe for water and sewage pipe joint using a GRP pipe that can change the joint angle of the water pipe, and the adhesion between the pipe and the water pipe connected to it increases as the water pressure of the water pipe increases. There is a purpose.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and the preferred embodiments associated with the accompanying drawings.

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

<First Embodiment (Fatigue Pipe for Joining Water Pipe)

1 is an exploded perspective view of a joint for water pipe joint according to a first embodiment of the present invention, Figure 2 is a cross-sectional view of a joint for water pipe joint according to a first embodiment of the present invention, Figure 3 is a present invention A cross-sectional view of a watertight rubber ring applied to a joint pipe for water supply pipe joining according to the first embodiment of the present invention.

As shown in the fitting pipe according to the first embodiment of the present invention, the first watertight rubber ring 20 and the first watertight are adhered to the inner surface of the fitting pipe body 10 and the fitting pipe body 10. It is composed of a second watertight rubber ring 30 is bonded to the inner surface of the joint pipe body 10 at a predetermined interval from the rubber ring 20 for.

The joint pipe body 10 is composed of a synthetic resin in which the inner layer and the outer layer are filled with glass fibers therein, and an intermediate layer made of mortar is composed of a GRP tube (Glassfiber Reinforced Plastic Pipe) in which the inner layer and the outer layer are laminated. Is slightly larger than the outer diameter of the water pipe.

The first watertight rubber ring 20 has a first catching jaw 21 protruding outward from the pipe to be joined to one end surface of the fitting pipe body 10 and a water pressure acting on the water pipe. The first watertight vane 22 protruding toward the tube center direction and the first watertight vane 22 at a predetermined interval so as to improve the first internal pressure by a force acting as Second watertight vanes 23 for improving the vehicle internal pressure are sequentially formed from the outside inward in the longitudinal direction of the joint pipe body 10.

At this time, the first watertight vane 22 and the second watertight vane 23 are protruded obliquely in the insertion direction of the water supply pipes 40 and 40 ', so that the water supply pipe is easily inserted, but the separation is difficult. In addition, the protruding width and height of the wings 22 and 23 are determined so as to prevent leakage when the angle is changed after the insertion of the water pipe. Here, the higher the height of the wings (22, 23), the wider the area in contact with the water supply pipe is inserted, so that the watertight performance is further improved. On the other hand, the protruding height of the blades 22 and 23 is generally designed in consideration of the minimum / maximum compression rate due to the wing height, the rate of change in the cross-sectional area of the rubber ring before and after the water pipe insertion, and the permanent compression rate of the rubber ring itself.

The second watertight rubber ring 30 protrudes toward the center of the pipe so that the water pipes 40 and 40 'to be joined are spaced apart at predetermined intervals from each other while being prevented from being twisted when the water pipes 40 and 40' are inserted. And a third watertight vane 32 protruding toward the center of the tube so as to improve the secondary internal pressure by the force acting in the outward direction due to the water pressure acting on the water supply pipe. The fourth watertight blade 33 protrudes toward the center of the tube at a predetermined distance from the watertight blade 32 and improves the primary internal pressure, and is joined to the other end surface of the joint pipe body 10 in the outward direction of the pipe. Protruding second locking step 34 is formed sequentially from the inner side to the outer side in the longitudinal direction of the joint pipe body (10).

In this case, the third watertight blade 32 and the fourth watertight blade 33 are similar to the first and second watertight blades 22 and 23 of the first watertight rubber ring 20, respectively. , 40 ') protrudes obliquely in the direction of insertion, making it easy to insert water pipes, but difficult to disengage. The protrusion height of the wings 32 and 33 is the minimum / maximum compression ratio by the height of the wings, It is designed in consideration of the rate of change of the cross-sectional area of the rubber ring and the permanent compression rate of the rubber ring itself.

On the other hand, the stopper 31 is composed of a neck portion 31a protruding obliquely from the surface of the second watertight rubber ring 30 and a body portion 31b extending vertically from the tip of the neck portion 31a. The gap must be maintained without being damaged by the insertion force of.

At this time, the first and second watertight rubber rings 20 and 30 are all composed of EPDM (Ethylene Propylene Diene Monomer) rubber, which has good aging resistance, ozone resistance, polar liquid resistance and electrical properties and is harmless to human body. .

Figure 4 is a conceptual diagram showing the adhesion and the internal pressure of the water-tight rubber ring when water pressure acts on the joint pipe according to the first embodiment of the present invention.

As shown, the first and second watertight vanes 22 and 23 and the second watertight rubber ring 30 of the first watertight rubber ring 20 when water pressure acts on the water supply pipes 40 and 40 '. Since the third and fourth watertight blades 32 and 33 of the water are pushed toward the center of the tube, the adhesion between the watertight rubber rings 20 and 30 and the water supply pipes 40 and 40 'is increased to increase the watertight performance and the hydraulic performance. To maintain the watertight wings (22, 23, 32, 33) will improve the internal pressure.

5 is a shape diagram after the maximum angular deformation of the water supply pipe inserted into the joint pipe according to the first embodiment of the present invention.

As shown in the drawing, the elastic first and second watertight rubber rings 20 and 30 are spaced apart at predetermined intervals and bonded to the inner surface of the joint pipe body 10, so that the elasticity of the joint is not required even if a separate curved pipe is not used. By this, the joint angle (maximum 3 degrees) of the water and sewage pipe can be deformed, and the safety zone S can be safely formed even if the length of the pipe part changes.

Second Embodiment (Seamage Pipes for Sewer Pipe Joints)

FIG. 6 is a cross-sectional view of a sewer pipe fitting according to a second embodiment of the present invention, and FIG. 7 is a cross-sectional view of a watertight rubber ring applied to a sewer pipe according to a second embodiment of the present invention.

As shown in the fitting pipe according to the second embodiment of the present invention, the first watertight rubber ring adhered to the inner surface of the fitting pipe body 10 and the fitting pipe body 10 as in the first embodiment ( 20 ') and the first watertight rubber ring 20' and the second watertight rubber ring 30 'bonded to the inner surface of the fitting pipe body 10 at a predetermined interval.

However, unlike the first embodiment, the third and fourth of the first and second watertight vanes 22 'and 23' of the first watertight rubber ring 20 'and the second watertight rubber ring 30' are different. The protruding height of the watertight blades 32 'and 33' is shorter. The reason is that in the case of a water pipe, a relatively high water pressure of 6 to 16 kgf / cm ² acts, so that the height of the watertight wing must be high in the joint pipe for water supply pipe connection as in the first embodiment so that no leakage occurs at the joint due to internal pressure. However, in the case of sewage pipes because the relatively low water pressure of 2kgf / cm ² acts because the height to prevent the minimum leakage.

8 is a conceptual diagram showing the adhesion and the internal pressure of the water-tight rubber ring when the hydraulic pressure acts on the joint pipe according to the second embodiment of the present invention.

As shown, the first and second watertight vanes 22 'and 23' of the first watertight rubber ring 20 'and the second watertight rubber ring when water pressure is applied to the sewer pipes 40 and 40'. Since the third and fourth watertight vanes 32 'and 33' of (30 ') are pushed toward the center of the tube, the adhesion between the watertight rubber rings 20' and 30 'and the water supply pipes 40 and 40' As it rises, the watertight performance and the water pressure performance are maintained, and the watertight blades 22 ', 23', 32 'and 33' improve the internal pressure.

9A and 9B are conceptual views illustrating a manufacturing process of a fitting pipe according to the present invention.

As shown in FIG. 9A, first, a fitting tube body 10 is manufactured. The joint pipe body 10 winds the synthetic resin 110a on the mold 120 driven by the motor 110, winds the glass fiber 110b on the synthetic resin 110a, and then puts the synthetic resin on the glass fiber 110b again. 110a) was wound to form an inner layer, and a mortar 120a was laminated on the inner layer to form an intermediate layer, and then a synthetic resin 130a was wound on the intermediate layer and the glass fiber 130b was wound on the synthetic resin 130a. The outer layer is formed by rewinding the synthetic resin 130a on the glass fiber 130b, and the inner layer, the middle layer, and the outer layer formed as described above are cured at a high temperature, and then cut into a predetermined length.

Next, the first watertight rubber rings 20 and 20 'and the second watertight rubber rings 30 and 30' having the shape as described above to be bonded to the inner surface of the joint pipe body 10 manufactured as described above. Prepare.

Next, the outer surface of the first and second watertight rubber rings and the first and second watertight rubber rings to improve the adhesive force between the first and second watertight rubber rings and the inner surface of the pipe body 10. Sanding

Next, elasticity is imparted to the epoxy adhesive for adhesion of the joint pipe body 10 and the first and second watertight rubber rings. This elasticity of the adhesive is flexible and elastic, so that no leakage occurs in the adhesive portion by the impact and vibration.

Finally, the first watertight rubber ring and the second watertight rubber ring may be bonded to the inner surface of the fitting pipe body 10 after sanding is completed.

As described above, the following effects according to the present invention are expected.

First, the first, second, third and fourth watertight blades protruding from the first and second watertight rubber rings improve the adhesion between the joint pipe and the water and sewage pipe as the water pressure of the water and sewage pipe increases, and accordingly, Is improved.

Second, since the first and second watertight rubber rings adhered to the inner surface of the joint pipe body are bonded to each other at a predetermined interval, they may correspond to a change in the angle of the water and sewage pipe to be joined and a change in the length of the partial pipe.

Third, the joint pipe main body is composed of a synthetic resin in which the inner layer and the outer layer are filled with glass fibers inside, and the intermediate layer made of mortar is composed of a GRP tube laminated between the inner layer and the outer layer, so that the weight is light and the workability is good, and the elasticity and watertightness are good. Not only is it excellent, it is semi-permanent, and the EPDM rubber is used as the first and second watertight rubber rings, so it is excellent in aging resistance, ozone resistance, polar liquid, electrical properties and harmless to human body.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, various modifications and variations are possible without departing from the spirit and scope of the invention. Thus, the claims will cover any modifications or variations that fall within the spirit of the invention.

1 is an exploded perspective view of a joint for joining water pipes according to a first embodiment of the present invention.

Figure 2 is a cross-sectional view of the joint pipe for water pipe connection according to the first embodiment of the present invention.

3 is a cross-sectional view of the watertight rubber ring applied to the joint pipe for water supply pipe according to the first embodiment of the present invention.

Figure 4 is a conceptual diagram showing the adhesion and internal pressure of the water-tight rubber ring when water pressure acts on the joint pipe according to the first embodiment of the present invention.

5 is a view of the shape after the maximum angular deformation of the water supply pipe inserted into the joint pipe according to the first embodiment of the present invention.

6 is a cross-sectional view of a joint pipe for sewer pipe connection according to a second embodiment of the present invention.

7 is a cross-sectional view of the watertight rubber ring applied to the joint pipe for sewer pipe connection according to the second embodiment of the present invention.

8 is a conceptual view showing the adhesion and the internal pressure of the water-tight rubber ring when the water pressure acts on the joint pipe according to the second embodiment of the present invention.

9A and 9B are conceptual views illustrating a manufacturing process of a fitting pipe according to the present invention.

10 is a cross-sectional view of a joint pipe for joining a conventional water pipe or sewage pipe.

<Explanation of Signs of Major Parts of Drawings>

10: fitting pipe body 20: first watertight rubber ring

21: first locking jaw 22: first watertight wing

23: 2nd watertight wing 30: 2nd watertight rubber ring

31: stopper 32: third watertight wing

33: fourth watertight wing 34: second locking jaw

40, 40 ': Water pipe or sewer pipe

Claims (5)

In the joint pipe used for joining the water and sewage pipe composed of the GRP pipe, A joint having a predetermined length, the inner layer and the outer layer made of synthetic resin with glass fibers embedded therein, and the intermediate layer made of mortar made of a GRP tube laminated between the inner layer and the outer layer, and having a larger inner diameter than the outer diameter of the water and sewage pipe. Tube body 10; The first locking jaw 21 protruding outwardly of the pipe to be bonded to the inner surface of the fitting pipe main body 10 and to be bonded to one end surface of the fitting pipe main body 10, and the pipe due to the water pressure acting on the water supply pipe. The first watertight vane 22 protrudes toward the center of the tube and the first watertight vane 22 protrudes in the direction of the tube center at a predetermined distance so as to improve the primary internal pressure by an force acting outwardly. A first watertight rubber ring 20 having a second watertight vane 23 for improving a secondary internal pressure sequentially formed from the outside inward in the longitudinal direction of the joint pipe body 10; The water supply pipe 40 is spaced apart from the first watertight rubber ring 20 at a predetermined interval and adhered to the inner surface of the fitting pipe body 10, and is bonded while preventing the torsion when the water supply pipes 40 and 40 ′ are inserted. , The stopper 31 protruding toward the center of the tube so as to be spaced apart from each other at predetermined intervals, and the secondary internal pressure is improved by the force acting outwardly due to the water pressure acting on the water supply pipe. A third watertight vane 32 protruding in the center direction, a fourth watertight vane 33 projecting in the tube center direction at a predetermined distance from the third watertight vane 32 and improving the primary internal pressure; The second watertight jaw 34 protruding outwardly of the pipe to be joined to the other end surface of the pipe body 10 is sequentially formed from the inside to the outside in the longitudinal direction of the pipe body 10. Up and down characterized in that it comprises a rubber ring 30 Water pipe joints. The method according to claim 1, The first and second watertight vanes 22 and 23 of the first watertight rubber ring 20 and the third and fourth watertight vanes 32 and 33 of the second watertight rubber ring 30 are formed of water and sewage pipes. Joint pipe for water and sewage pipes, characterized in that protruded obliquely in the insertion direction. The method according to claim 1 or 2, The stopper 31 of the second watertight rubber ring 30 has a neck portion 31a protruding obliquely from the surface of the second watertight rubber ring 30 and a body portion extending from the tip of the neck part 31a ( A joint pipe for water and sewage pipe joining, comprising: 31b). The method according to claim 3, The first watertight rubber ring 20 and the second watertight rubber ring 30 are joint pipes for water and sewage pipes, characterized in that composed of EPDM rubber. Winding the synthetic resin in a mold driven by a motor, winding the glass fiber on the synthetic resin, and then winding the synthetic resin on the glass fiber again to form an inner layer, applying a mortar on the inner layer to form an intermediate layer, and the intermediate layer Winding the synthetic resin on the glass and wound the glass fiber on the synthetic resin and then wound the synthetic resin on the glass fiber again to form an outer layer, by curing the molded inner layer, intermediate layer and outer layer at a high temperature to form a glass fiber reinforced plastic tube And a joint pipe body manufacturing process comprising the step of cutting the glass fiber plastic pipe to a predetermined length; Manufacturing a first rubber ring and a second rubber ring according to any one of claims 1 to 4 to be bonded to an inner surface of the fitting pipe body; Sanding the inner surface of the joint body and the outer surfaces of the first and second rubber rings to improve the adhesion between the first and second rubber rings and the inner surface of the joint tube body; Providing elasticity to the epoxy adhesive for bonding the inner surface of the joint pipe body to the first and second rubber rings; A method of manufacturing a joint pipe for water and sewage pipe jointing using a GRP pipe, comprising the step of adhering a first rubber ring and a second rubber ring to an inner surface of the pipe body in which sanding is completed.