KR101764316B1 - Using outside pressure of steel pipe structure for water work and watertight check structure - Google Patents

Abstract

The present invention relates to a water supply steel pipe having a double index structure capable of checking water tightness and a water tightness check method using the same, more specifically, which can quickly and easily check water tightness of a steel pipe connection portion in a construction site of a double expansion type water supply steel pipe. To achieve this, according to the present invention, the water supply steel pipe having a double index structure in accordance with double expansion comprises a water tightness check means to check water tightness in an intermediate end portion of a pressurization ring (60), and the water tightness check means comprises: a high pressure supply machine (100) supplying air pressure from the outside; and a pressure measurement device (110) to measure a change in pressure in the pressurization ring (60).

Description

TECHNICAL FIELD [0001] The present invention relates to a steel pipe for a water pipe having a double index structure capable of real-time watertightness checking using external pressure, and a real-time water tightness checking method using the steel pipe.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a steel pipe for tap water, and more particularly, to a steel pipe for tap water having a double index structure to effectively check water tightness at a steel pipe connecting portion.

Generally, a water supply pipe refers to a conduit used for supplying and distributing purified water, and is constructed in such a manner that a plurality of cast iron pipes or coated steel pipes formed by a certain length are connected by long lengths in a required length.

Since most of these water pipes are constructed with a length corresponding to a very long distance, the coated steel pipes are manufactured in a state of being designed for a certain length, and they are to be assembled while assembling them according to the installation distance. A pressure roller is used to assemble them together by using a separate pressure roller so that they are not separated from the assembled state.

Accordingly, the connection state of the water pipe composed of the coated steel pipe is determined by the clamping force of the pressure roller, and according to the fastening force, leakage of the water pipe is prevented, and the construction state of the water pipe according to the water pressure is determined. Much efforts have been made to prevent the water pipe from loosening or detaching from the assembled state of the water pipe due to a drop in water leakage or water pressure.

As a conventional example of such an exponential structure, Patent Registration No. 989990 has proposed a technique relating to a releasable pressure rubber ring for a water supply.

That is, according to the above-described conventional technique, the effect of preventing the leakage of water is improved by changing the structure of the rubber ring pressed in the wheel.

However, in the above-mentioned prior art, since one rubber ring is directly pressurized by the pressure roller, breakage or deformation of the rubber ring can be caused, and water tightness is deteriorated.

In addition, in Patent Application No. 2006-129545, a technique related to leak detection of steel pipe joints has been proposed. However, in the above-described conventional technique, a separate cover member must be installed to detect leakage of water.

In addition, complicated dams, roads, and nighttime construction have been completed by covering the soil without water leakage test after completion of water pipeline construction.

The present invention has been proposed in order to solve the above problems in the prior art, and it is an object of the present invention to provide a device capable of efficiently checking the watertightness of a steel pipe connecting portion at an installation site by using an external pressure, It is aimed to make.

In order to achieve the above object, the present invention is characterized in that an expansion part (21) is formed at an end of a second pipe (20) so that one end of the first pipe (10) A first rubber ring seating portion 22 is formed so that the first rubber ring 30 can be inserted into the first rubber ring 30 and a pressure ring 60 A supporting ring 80 is attached to the outer circumferential surface of the tube portion 21 so that the end of the tightening bolt 70 can be caught by the tightening bolt 70, And a water milling 85 for improving the water tightness is provided between the support ring 80 and the pressure ring 60. In the intermediate portion of the pressure ring 60, And the second rubber ring 40 is inserted into the pressing ring 60 at a position symmetrical to the first rubber ring 30 so that the second rubber ring 40 can be inserted into the pressing ring 60. [ And a pressing ring (50) for transmitting a pressing force is inserted between the first rubber ring (30) and the second rubber ring (40). The pressurizing protrusion (65) A pressing protrusion 65a for pressing the upper surface of the water milling 85 is protruded; A through hole 62 is formed in the pressing ring 60 at an inner side of the pressing protrusion 65 and a water tightness checking means for checking the water tightness is formed at the portion of the through hole 62, Pressure feeder 100 for supplying air pressure and a pressure meter 110 for measuring a change in pressure inside the pressure ring 60.

The present invention can quickly and easily check the watertightness of the steel pipe connecting portion at the construction site of the steel pipe for the water supply using the external pressure, thereby improving the construction quality.

In particular, since the double exponential structure having two watertight areas is formed through the double expansive shape, it is possible to measure the watertightness at any time by supplying external pressure to the space part formed in the middle of the two watertight areas, Thereby exhibiting an advantage of improving the inspection efficiency.

In addition, it is economically effective to check the watertightness by the external pressure without having to check the leaks by digging the soil from the road or the complicated roads.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional structural view of a double-expansive water pipe connection according to an embodiment of the present invention; FIG.
Fig. 2 is an enlarged view of part A of Fig. 1 in which the watertightness checking means is connected in the present invention.
3 is a detailed cross-sectional view of an end cap engagement portion in the present invention.
Fig. 4 is an enlarged cross-sectional view showing a state in which the water mill coupling part is separated in the present invention. Fig.
5 is an explanatory view of a watertight portion and an watertight space generating portion of the present invention;
6 is an enlarged cross-sectional view of a main portion of an application example according to another embodiment of the present invention.
7 is a cross-sectional enlarged view of a steel pipe connection portion according to another embodiment of the present invention.
8 is a cross-sectional enlarged view of a steel pipe connection portion according to still another embodiment of the present invention.

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

First, a schematic structure of a water pipe for a water supply having a double exponential structure capable of always checking water tightness according to an embodiment of the present invention will be described with reference to FIGS. 1 to 5.

The pipe for water supply in the present embodiment is formed with an expanded portion 21 at the end of the second pipe 20 so that one end of the first pipe 10 can be inserted, A first rubber ring seating portion 22 is formed so that the first rubber ring 30 can be inserted into the first rubber ring 30 and a pressure ring The support ring 80 is formed on the outer circumferential surface of the expansion portion 21 so that the end portion of the tightening bolt 70 can be caught by the tightening bolt 70, A water mill 85 for improving the water tightness is provided between the support ring 80 and the press ring 60. A pressing protrusion 65 protrudes from the intermediate portion of the press ring 60, The pressing ring 60 is provided with a second rubber ring seating part 61 for inserting a second rubber ring 40 at a position symmetrical to the first rubber ring 30, 30) and And a compression ring 50 for transmitting a pressing force is inserted between the two rubber rings 40. [

Particularly, in the present invention, the pressing ring 60 is formed with a through-hole 62 penetrating inside the pressing protrusion 65, and a water tightness checking means for checking the water tightness of the inside is formed at the portion of the through hole 62, As shown in FIG. 2, the means comprises a high-pressure feeder 100 for supplying air pressure from the outside and a pressure gauge 110 for measuring the pressure change inside the pressurizing ring 60.

The high-pressure feeder 100 and the pressure gauge 110 are connected by the one-touch connector 103 and the coupling pipe 104.

3, the end cap 102 can be connected to the through hole 62 by a connector 101. [

A pressing protrusion 65a for protruding a pressing action is provided at the end of the pressing protrusion 65 to press the upper surface of the water mill 85 in a pressed state. It can be confirmed that the stopper 85c is protruded to prevent the flow from being caught by the end of the second tube 20. [

As shown in FIGS. 4 and 5, the second pipe 20 of the present embodiment has a double expanded structure. The second pipe 20 has a flat surface such that the water mill 85 can be seated on one end thereof. By forming the milling seat (23), the water milling seat (23) can be brought into close contact with the water milling (85) during steel pipe connection.

The effect of the construction of the double-expansive water pipe of the present invention having such a structure will be described below.

The double-exponential steel pipe of the present invention is installed at a connection portion between pipes in a construction work of a water supply pipe, and the double- The state can be maintained.

That is to say, the end of the first pipe 10 is closed with the press ring 60, the first and second rubber rings 30, 40 and the press ring 50 sandwiching the first pipe 10, Is inserted into the expansion portion (21) of the second pipe (20).

When the nut (not shown) is returned so that the tightening force by the tightening bolt 70 provided on the pressing ring 60 is returned, tightening force by the tightening bolt 70 moves the pressing ring 60 The same watertightness can be stably maintained even if the pressing projection 65 formed with the pressing projection 65a moves the pressing projection 65a to a certain distance when the water milling 85 is pressed.

At this time, the lower surface of the water mill 85 is hooked on the end of the second pipe 20 to prevent the flow from being generated, so that the pushing action of the pressing protrusion 65 pushes .

In addition, the first rubber ring 30 and the second rubber ring 40 are simultaneously pressed on the side of the tube portion 21 to be able to maintain a watertightly engaged state. Particularly, in the present invention, 40 are brought into close contact with the outer wall surface of the first tube 10 and are kept in close contact with the inner wall surface of the presser ring 60. Even if leakage occurs due to the lowered water tightness of the first rubber ring 30 Since the secondary water ring is formed by the second rubber ring 40, the water leakage prevention effect at the connection portion of the water pipe can be maximized.

When the connection between the first pipe 10 and the second pipe 20 is completed, the water tightness of the pipe connecting portion is checked using the water tightness checking means of the present invention.

That is, at this time, as shown in FIG. 2, the one-touch connector 103 constituting the water-tightness check means is used to tighten the through-hole of the pressurizing ring 60 and then the high-pressure feeder 100 is operated, .

Thereafter, it is determined that there is no problem in the watertightness of the steel pipe connection portion when the pressure of the pressure gauge 110 is kept constant. If the measurement graduation is gradually decreased, it is determined that internal leakage occurs .

Accordingly, the present invention can quickly and easily check the watertightness of the steel pipe connecting portion at the construction site of the steel pipe for the water supply, using the external pressure, thereby improving the construction quality.

Particularly, as shown in FIG. 4, since the watertight test space is generated between the first-order and second-order water due to the two-stop water structure as shown in FIG. 4, external pressure can be supplied to the test space. .

When the water tightness checking operation is completed, the water tightness checking means is separated, and the end cap 102 is used to finish the through hole portion of the stopper 60 using the connector 101 as shown in FIG.

6 shows another embodiment of the present invention. In the water mill 85 corresponding to the pressing protrusion 65a, a plurality of reinforcing plates (not shown) for preventing the deformation due to the pressing force of the pressing protrusions 65a 85a are provided at predetermined intervals, and the reinforcing plates 85a can be connected to each other by elastic springs 85b.

The structure of the reinforcing plate 85a and the elastic spring 85b minimizes the deformation of the water milling 85 during the pressing operation by the pressing projection 65a, .

7 shows a structure according to another embodiment of the present invention. It can be seen that the pressing protrusion 65 directly presses the intermediate wall surface of the water mill 85.

With such a structure, since the pressing protrusion 65 transmits the entire pressing force to the water mill 85, the pressing force against the water mill 85 can be maximized.

8 shows a configuration according to another embodiment of the present invention. In the support ring 80, a press bolt 90 for pressurizing the water mill 85 is inserted through the press bolt 90, It can be confirmed that the washer 91 is configured so that the pressing force against the water milling 85 can be uniformly transmitted to the tip end portion.

When the water tightness check of the water tightness checking means of the present invention is performed, it is confirmed that the water tightness of the steel pipe connecting portion is lowered, the water tightness is further improved by further pressing the water mill 85 using the press bolt 90 It can be said that

10: first pipe 20: second pipe
21: expansion part 22: first rubber ring seat part
23: water mill seating portion 30: first rubber ring
40: second rubber ring 50: compression ring
60: pressure ring 61: second rubber ring seating part
62: through hole 65:
65a: compression protrusion 70: tightening bolt
80: Support ring 85: Water milling
90: Press bolt 91: Washer
100: High pressure feeder 101: Connector
102: End cap 103: One-touch connector
104: connector 110: pressure gauge

Claims (9)

The first tube 10 is inserted into the first tube 10 and the second tube 20 is inserted into the first tube 10 and the second tube 20 is inserted into the first tube 10, And a pressing ring 60 for transmitting a pressing force to the first rubber ring 30 is inserted into the first tube 10 so as to be able to press the first rubber ring 30, The support ring 80 is coupled to the outer circumferential surface of the tube portion 21 so that the end of the tightening bolt 70 can be caught, And a pressurizing protrusion 65 is provided in the intermediate portion of the pressurizing ring 60 so that a pressing action against the water milling 85 can be transmitted to the pressurizing ring 60. [ And a second rubber ring seating portion 61 is provided in the pressing ring 60 so that the second rubber ring 40 can be inserted at a position symmetrical to the first rubber ring 30, 1 Between the ring 30 and the second rubber ring (40) in the pipe for tap water which the compression ring (50) for the pressing force transmission sandwiched configuration,
A pressing projection 65a for pressing the upper surface of the water mill 85 is protruded from the end of the pressing projection 65;
A through hole 62 is formed in the pressing ring 60 at an inner side of the pressing protrusion 65 and a water tightness checking means for checking the water tightness is formed at the portion of the through hole 62, Pressure feeder 100 for supplying air pressure and a pressure meter 110 for measuring a change in pressure inside the pressurizing ring 60;
The end cap 102 is joined to the through hole 62 formed in the pressing ring 60 by the connector 101 to finish the process;
The high-pressure feeder 100 and the pressure gauge 110 are coupled to the through-hole 62 formed in the pressurizing ring 60 by the one-touch connector 103 and the connecting pipe 104;
The second tube 20 has a double expanded structure and is formed at one end thereof with a water-milled seating part 23 forming a flat surface so that a water mill 85 can be seated thereon.
A hooking protrusion 85c is formed at one side of the bottom of the water mill 85 so as to be caught by the end of the second tube 20 to prevent the generation of a flow;
A plurality of reinforcing plates 85a for preventing the shape deformations due to the pressing force of the pressing protrusions 65a are provided at predetermined intervals in the water mill 85 corresponding to the pressing protrusions 65a, ) Are connected to each other by an elastic spring (85b). The steel pipe for waterworks has a double index structure capable of checking water tightness in real time using an external pressure. delete delete delete delete delete delete delete The pressure ring 60 is supplied with a high pressure from the high-pressure feeder 100 in the state where the water pipe for water supply is installed, and the change in the pressure of the pressure measuring instrument 110 is checked in real- Wherein the watertightness of the inside of the watertight container is inspected in real time.

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