KR100731173B1 - Connect structure for water pipe - Google Patents

Abstract

The present invention discloses a water and sewage pipe connection structure.

In the pipe connection structure for connecting a plurality of water pipes or sewage pipes in series, the water and sewage pipe connection structure according to the present invention is integrally provided at an outer circumference near one end of the pipe, and has an internal groove recessed in a triangular shape. And a fitting connection part having first and second stepped portions for reducing the outer diameter of the pipe on both sides with respect to the inner groove, and integrally provided at the outer circumference of the other side. An insertion groove having an enlarged diameter so as to be able to extend, and an outer groove recessed into a triangular shape formed at a position corresponding to the inner groove by the inner circumference of the insertion portion to form a damping chamber of a rhombus shape filled with a soft sealing agent; An insertion connection portion in which an injection hole selectively shielded by a cap is formed by allowing the outer groove to communicate with the outside to enable injection of a soft sealing agent; The first group are respectively fitted to the step portion and the second stepped portion is configured to include the first and second O-ring to block the leakage of the sealant of the filled in soft damping chamber.

The structure of the water and sewage pipe connecting structure as described above is based on the connection point by the impact or vibration from the ground repeatedly applied to the damping chamber formed inside the state where the pair of pipes are connected, by the filling of a soft sealing agent. When a pair of pipes are flowed, this can be compensated for buffering, thus providing an advantage of stably preventing damage to the connection part of the pipe due to shock or vibration in a state of securing watertightness.

Water pipe, sewer pipe, connection, concrete, connection

Description

Water and sewage pipe connection structure {CONNECT STRUCTURE FOR WATER PIPE}

1 is an exploded perspective view showing main parts cut and drain pipe connection structure according to the present invention;

Figure 2 is a schematic diagram for explaining the construction state of the water and sewage pipe connection structure according to the present invention,

3 is an enlarged cross-sectional view of main parts of the water and sewage pipe connection structure according to the present invention;

Figure 4 is a cross-sectional view for explaining the main structure in the water and sewage pipe connection structure according to the present invention.

<Explanation of symbols for the main parts of the drawings>

1, 1 ': connector 2: fitting connection

3: insertion connection 10: internal groove

11,12: step 20: outer groove

25: inlet c: cap

DC: Damping Chamber o1, o2: O-ring

s: sealing agent

The present invention relates to a connection structure of water and sewage pipes buried underground, and more particularly, it is possible to stably prevent damage to a connection portion due to a locally acting load in a state of securing watertightness by improving the connection structure of the pipe. It relates to water and sewage pipe connection structure.

In general, sewage pipes are pipes laid in the shape of a net under the road in the city area to purify sewage or rainwater discharged from buildings, etc. that originate from business or business, or to be discharged into streams. The water pipe refers to a pipe that forms a water supply system to supply tap water from each water purification plant to each building.

Such water and sewage pipes mainly use concrete sewage pipes where the water flow rate is large, and where the water flow rate is relatively small, synthetic resin materials such as PVC and polyethylene, or sewage pipes formed of castings or metals, which are superior to concrete, are used. There is a situation.

In the case of sewage pipes formed of concrete among the water and sewage pipes as described above, the interconnected portions are sealed with cement or the like to maintain a pair of pipes connected to each other, but this construction method is difficult to work with. But it is difficult to secure watertightness.

And, the sewage pipe made of a synthetic resin material is connected to each other through a heat-sealing process through a separate device in the state in which conventionally connected to each other so as to communicate with each other when the communication direction is interconnected during piping work. In this case, there is a hassle to provide a separate device for mutual heat-sealing the sewage pipe for construction, there is a problem that the workability is significantly reduced because it requires a long time to connect the sewage pipe.

Finally, in the case of sewage pipes formed of castings or metals, most of them are connected to a pair of pipes by welding, or connected to each other using a member such as a separate coupler. There is a disadvantage.

On the other hand, in the structure for connecting the pipes formed of concrete, synthetic resin, casting or metal, in addition to the respective disadvantages, if the impact and vibration applied from the ground is repeatedly transmitted, the connection parts of the pipes are easily broken to maintain watertightness. As a result, the sewage and sewage may leak, thereby accelerating ground subsidence, and in the case of sewage, there is a problem of causing serious water pollution such as soil and groundwater contamination.

The present invention was created in order to solve the above problems, by forming a damping chamber filled with a soft sealing agent while allowing the connecting portion to be connected to a pair of pipes connected to each other by a mutual fitting structure, a pair by an external vibration or impact The purpose of the present invention is to provide a structure for connecting the water and sewage pipes so that even when the pipes are flowed, they can be elastically compensated so that the watertightness can be stably prevented from being damaged by the impact.

Water and sewage pipe connection structure according to an embodiment of the present invention for achieving the above object, in the pipe connection structure for connecting a plurality of water pipes or sewage pipes in series,

It is integrally provided on the outer periphery close to one end of the tube, the fitting connecting portion is formed in the inner groove recessed in a triangular shape, and the first and second stepped portion to reduce the outer diameter of the tube to both sides based on the inner groove Wow; It is provided integrally with the other outer periphery of the tube, the insertion portion having a diameter extended enough to be fitted at intervals of the fitting connection, and formed in a position corresponding to the inner groove by the inner circumference of the insertion portion soft sealing An outer groove recessed into a triangular shape to form a rhombus-shaped damping chamber filled with the inner groove and the outer groove communicates with the outside to allow the injection of a soft sealing agent to form an injection hole selectively shielded by a cap. An insertion joint; It is characterized in that it comprises a first and second O-rings fitted into the first step portion and the second step portion, respectively, to block the leakage of the soft sealing agent filled in the damping chamber.

As a preferable feature of the present invention, the first stepped portion provided on one side close to the end of the tube has a larger reduction in outer diameter than the second stepped portion provided at a position opposite thereto.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are consistent with the technical spirit of the present invention based on the principle that the inventor can appropriately define the concept of the term in order to explain the invention in the best way. It must be interpreted as meaning and concept.

Hereinafter, with reference to the accompanying drawings illustrating a preferred embodiment of the water and sewage pipe connection structure according to the present invention.

1 is a cut-away exploded perspective view of the main portion showing the water and sewage pipe connection structure according to the present invention, Figure 2 is a schematic diagram for explaining the construction state of the water and sewage pipe connection structure according to the present invention.

3 is an enlarged cross-sectional view of main parts of the water and sewage pipe connection structure according to the present invention, and FIG. 4 is a cross-sectional view for explaining the main part configuration of the water and sewage pipe connection structure according to the present invention.

As shown in the figure, the water and sewage pipe connecting structure of the present invention is applied to a water pipe or sewage pipe connecting two or more in series, and the fitting connection part 2 formed at one end of the pipe and the other end corresponding thereto. It consists of the insertion connection part 3 formed, and the 1st and 2nd O-rings o1 and o2 provided in the state which the fitting connection part 2 and the insertion connection part 3 were fitted.

The fitting connecting portion 2 is provided on the outer circumference of the one end of the tube, the inner groove 10 is formed in the triangular shape along the outer circumference. At this time, the inner groove 10 generates a damping chamber dc, which is a space portion having a rhombus shape, corresponding to the outer groove 20 to be described later.

On the other hand, one end of the inner groove 10, that is, the first step portion 11 is formed at one side close to the end of the tube, the second step toward the opposite position, that is, the side toward the central portion of the tube A portion 12 is formed, wherein the first stepped portion 11 has a larger outer diameter reduction width than that of the second stepped portion 12. In the present invention, the first step portion 11 and the second step portion 12 propose a configuration for reducing the outer diameter at a ratio of 2: 1. For example, the first step portion 11 is 10 mm from the outer diameter of the tube. The second step portion 12 is formed to have a step of 5 mm if it has a step of.

The reason for the step difference between the first stepped part 11 and the second stepped part 12 is that the first stepped when the pair of pipes 1 and 1 'connected to each other flows by external vibration or shock. This is to compensate for the larger flow width in section 11 occurs.

Insertion connecting portion (3) is provided integrally close to the other end of the tube, the tubular insertion portion (3 ') having a diameter extended so that the above-described fitting connection (2) can be fitted at intervals. It is formed integrally.

In addition, the inner circumference of the insertion part is a structure in which an outer groove 20 concave in a triangular shape is formed at a position corresponding to the inner groove 10, and the outer groove 20 at this time is the inner groove 10. Correspondingly to form a damping chamber (dc) having a rhombus shape. Here, the damping chamber (dc) is filled with a soft sealing agent (s) having excellent buffering properties.

On the other hand, in order to inject a soft sealing agent (s) in the damping chamber (dc), one side of the outer groove 20 is formed to be in communication with the outside, the injection hole 25 is a cap ( c) is selectively shielded by c). Wherein the cap (c) is provided separately as in the present invention may be configured to block the inlet 25 through the screw fastening method, in the present invention is not limited to this to permanently close according to the type or shape of the pipe The method may be used. For example, in the case of a tube formed of a casting or metal, the injection hole 25 may be sealed by welding or the like.

The injection hole 25 configured as described above may be formed at one or more intervals according to the size of the tube.

The first and second o-rings o1 and o2 are respectively fitted to the first stepped part 11 and the second stepped part 12 so that the soft sealing agent s filled in the damping chamber dc prevents leakage. As the blocking, one molded of a material such as a soft sealing agent (s) having excellent buffering property may be used. Such first and second o-rings (o1, o2) may be used in a variety of materials as long as it has a buffer property while ensuring watertightness, and can be carried out by a known technique, detailed description thereof will be omitted.

The water and sewage pipe connecting structure configured as described above may be assembled as follows.

First, two or more tubes 1 and 1 'arranged in series are prepared, and these tubes are arranged to be connected in series with each other so that the fitting connecting portion 2 and the inserting connecting portion 3 are positioned in opposite directions. do.

In this state, the fitting connecting portion 2 in a state in which the first and second O-rings o1 and o2 are fitted to the outer circumferential edges of the first and second stepped portions 11 and 12 of the fitting connecting portion 2, respectively. And insertion connector 3 are moved to fit with each other.

In addition, since the inner groove 10 of the fitting connection part 2 and the outer groove 20 of the insertion connection part 3 are shielded by the first and second o-rings o1 and o2, they are soft through the injection hole 25. The sealing agent (s) is injected to fill the inside of the damping chamber (dc) formed by the inner groove 10 and the outer groove 20 to close the injection hole 25 using the cap (c).

At this time, the fitting connecting portion 2 and the inserting connecting portion 3 should be arranged with a gap facing each other in the advancing direction in which they are fitted with each other, as shown in FIG. To make it possible. The spacing at this time has a larger spacing than the step of the first stepped section 11.

In other words, the interval in which the first stepped portion 11 is formed between the inner circumferential surface of the insertion portion 3 'is referred to as L2, and the gap between the second stepped portion 12 and the inner circumferential surface of the insertion portion 3' is defined. When the spacing formed is referred to as (L1), and the spacing between the fitting connecting section 2 is inserted into the insertion connecting section 3 (L3), the spacing is L3> L2> L1. This is to compensate for the flow of the pipe due to the deepening of the flow phenomenon in the connection part of the pipe when shock or vibration from the outside is transmitted.

The pair of pipes connected by this process has a watertightness while absorbing and buffering the shock and vibrations caused by the flow generated at the connection part of the tube by buffering the soft sealing agent (s) in the damping chamber (dc). It will be secured.

It is apparent to those skilled in the art that the present invention is not limited to the described embodiments, and that various modifications and changes can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or variations will have to belong to the claims of the present invention.

The water and sewage pipe connecting structure constructed and acted as described above is repeatedly filled with a soft sealing agent in the damping chamber formed inside a pair of pipes connected to each other, thereby repeatedly causing impacts or vibrations from the ground to provide a connection point. When a pair of pipes are flowed as a reference, this can be compensated for buffering, thereby providing an advantage of stably preventing damage to the connection part of the pipe due to shock or vibration in a state of securing watertightness.

In addition, not only does not require a separate coupler member for connecting the pipe, but also solves the difficulty of replacing and repairing the tube by the method of permanently joining the conventional pipe provides a very useful effect in the industry.

Claims (2)

In the pipe connection structure for connecting a plurality of water pipes or sewage pipes in series, It is integrally provided on the outer periphery close to one end of the tube, the fitting connecting portion is formed in the inner groove recessed in a triangular shape, and the first and second stepped portion to reduce the outer diameter of the tube to both sides based on the inner groove Wow; It is provided integrally with the other outer periphery of the tube, the insertion portion having a diameter extended enough to be fitted at intervals of the fitting connection, and formed in a position corresponding to the inner groove by the inner circumference of the insertion portion soft sealing The outer groove recessed into a triangular shape to form a rhombus-shaped damping chamber to which the filling is made, and the outer groove is in communication with the outside to enable the injection of a soft sealing agent. A connecting portion; And first and second O-rings respectively fitted to the first and second stepped portions to block the leakage of the soft sealing agent filled in the damping chamber. The first step portion provided on one side close to the end of the pipe is connected to the water and sewer pipe, characterized in that the reduction in the outer diameter is larger than the second step portion provided in the opposite position. delete

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