KR20170119258A - Water leak sensing system of double watertight pipe - Google Patents

Abstract

The present invention relates to a leak detection system for a double-index cast iron pipe and its cast iron pipe, and is capable of performing a repair operation by quickly recognizing leakage of leaks at a connection portion of a cast iron pipe having a double index .
In order to accomplish this, the present invention is characterized in that an expansion portion 21 is formed 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 part 22 is formed to enable insertion of the ring 30 and a press ring 60 for transmitting a pressing force to the first rubber ring 30 is formed outside the first tube 10 A fastening bolt 70 is fastened to the pressing ring 60 and a fastening bolt 23 is provided around the fastening bolt 70 so that the end of the fastening bolt 70 can be hooked. In the tolerance index structure, the pressure ring (60) is provided with a second rubber ring seat (61) so that a second rubber ring (40) can be inserted at a position symmetrical to the first rubber ring (30); A compression ring 50 for transmitting a pressing force is interposed between the first rubber ring 30 and the second rubber ring 40; A water leakage sensor 100 for detecting the occurrence of water leakage in the first rubber ring 30 is formed in the intermediate portion of the pressure ring 60; The sensed signal from the leak sensor 100 is transmitted to the manager via the transmitter 200, either wirelessly or wirelessly.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a double-

The present invention relates to a leakage detection system for a double-index cast iron pipe. More particularly, the present invention relates to a leakage detection system for a double-index cast iron pipe, The present invention relates to a cast iron pipe leak detection system and a cast iron pipe pipe for preventing leakage leakage and enabling advance prediction of leakage and coping with maintenance plans accordingly.

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 cast iron pipes are manufactured in a state of being designed by a certain length, and they are to be assembled while assembling them according to the installation distance. So that they are assembled with each other by using the rolling of the rollers, and the rollers are used to prevent them from being separated from the assembled state.

Accordingly, the connection state of the water pipe made of the cast iron pipe is determined by the tightening force of the pressure roller, and according to the tightening force, leakage of water from the water pipe is prevented, and the construction state of the water pipe according to the water pressure is determined. There has been much effort to prevent the water pipe from loosening or detaching from the assembled state of the water pipe.

As a conventional example of such an exponential structure, Patent Registration No. 995105 has proposed a technique relating to a connection pipe for connection to a sewer pipe.

That is, in the related art, the watertightness can be maintained by changing the structure of the packing pressed in the joint pipe.

However, in the above-mentioned prior art, since one packing is directly pressurized by the joint pipe, the packing may be damaged or deformed, and water tightness may be deteriorated.

In addition, in Japanese Patent No. 1173592, a technology related to a system for preventing breakage of a buried pipe and confirming a damaged position has been proposed. In the above-mentioned conventional technique, a separate surveillance tape must be installed to detect a broken position There is a problem that the error range for confirming the location of the breakage point is large.

In addition, when a breakage is detected on a monitoring tape spaced apart from the buried pipe, the distance from the monitoring unit to the position where the breakage is detected by the electrical signal is measured, and is displayed on the central control unit as position information based on the GIS information It was possible to do.

However, since the environment in which the monitoring tape installed apart from the buried pipe is connected to the underground connection, the pollutant is introduced between the monitoring tape and the buried pipe, and many electric malfunctions occur, so that some errors In case of malfunction, even if there is no breakage, it is judged as breakage and it is necessary to construct the breakage buried pipe. Therefore, a lot of labor costs and time are consumed.

The present invention has been proposed in order to solve the problems of the prior art described above and provides a double index structure capable of exhibiting a more stable leak-barrier effect by allowing a plurality of rubber rings to closely contact with the outer wall surface of the water pipe. , It is possible to increase the accuracy of leaks by measuring the leaked position accuracy and the pressure value by sensing the connection point leakage with the GPS coordinate value or the pressure sensor generating the specific frequency, and in case of leakage, the first leak check or the second leak And to provide a pipe pipe leakage detection system and steel pipe pipe for the steel pipe pipe leakage detection system for enabling a repair plan to be coped with.

In order to achieve the above object, the leakage detection system of the present invention is characterized in that an expansion part is formed at the end of the second pipe so that one end of the first pipe can be inserted, and the first rubber ring can be inserted into the inner periphery of the expansion part A first rubber ring seating portion is formed, and a pressure ring for transmitting a pressing force to the first rubber ring is fitted to the outside of the first tube, a tightening bolt is fastened to the pressure ring, and an end portion of the tightening bolt is fastened Wherein the presser ring is provided with a second rubber ring seating part for inserting a second rubber ring at a position symmetrical with the first rubber ring, ; A compression ring for transmitting a pressing force is inserted between the first rubber ring and the second rubber ring; Wherein the pressure ring interrupting portion is constituted by a leak detection sensor for detecting the occurrence of leakage in the first rubber ring; And the detection signal from the leakage sensor is transmitted to the manager (control room) via a field inspection unit (transmitter).

Also, the leak sensor may be a pressure sensor that generates a GPS coordinate value or a constant frequency at which the measurement is made using the water pressure of the leaked water.

In the present invention, the double exponential function is performed at the connection portion of the water supply pipe, thereby preventing the leakage phenomenon of the connection portion in advance and promptly recognizing the occurrence of the leakage, thereby realizing a repair work plan .

Particularly, since it is possible to predict stepwise whether the primary leak only occurs in the inside or the outside leakage due to the secondary leakage, it is possible to appropriately respond according to the situation of the site.

In other words, when only the first leak occurs, the emergency number is not necessary. Therefore, the repair is performed at a proper time that does not cause complaints, and if a second leak occurs, a quick recovery operation must be performed after the emergency number. It is possible to make a selective judgment according to the result.

In addition, it is possible to check the leakage of water by sensing the pressure in response to the pressure, and it is possible to measure stepwise by a plurality of sensors according to the leaking progress direction, thereby making it possible to greatly improve leak judgment accuracy and leakage position accuracy. , It is possible to monitor the progress time from the initial leakage state to the fully leaked state, to confirm the first leakage and the second leakage based on this monitoring.

In addition, by using these data, it is possible to confirm the exact position of the leakage and perform the planned repair work. Therefore, it is possible to reduce unnecessary repetitive repair work, and it is possible to prevent leakage beforehand by widely managing the leakage, There is an advantage that the cost can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded cross-sectional view of a dual exponential structure for a cast iron pipe according to a first embodiment of the present invention; FIG.
2 is a cross-sectional view of the dual index structure of the present invention.
3 is an enlarged view of part A of Fig.
4 is a block diagram of a leakage detection system according to the present invention.
5 is a detail view of a double-exponential structure in accordance with a second embodiment of the present invention.
FIG. 6 is a detail view of a packing material seating portion of an exponential structure in a second embodiment of the present invention. FIG.
7 is a cross-sectional view of a double-index structure in accordance with a third embodiment of the present invention.
8 is an enlarged view of a part of an exponential structure in a third embodiment of the present invention.
9 is a sectional view of the first rubber ring coupling section according to the fourth embodiment of the present invention.
10 is a view showing the first rubber ring recessed operation state in the fourth embodiment of the present invention.
11 is a second rubber ring side recessed portion view according to a fifth embodiment of the present invention.
12 is a cross-sectional structural view of a second rubber ring coupling portion in a fifth embodiment of the present invention.

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

First, a leakage detection system and a cast iron pipe structure of a double-index cast iron pipe according to a first embodiment of the present invention will be described with reference to FIGS. 1 to 4. FIG.

An expansion portion 21 is formed at the end of the second pipe 20 so that one end of the first pipe 10 can be inserted into the connection portion between the first pipe 10 and the second pipe 20 constituting the water pipe A first rubber ring seating portion 22 is formed on the inner circumferential surface of the tube portion 21 so that the first rubber ring 30 can be inserted therein and a first rubber ring 30 And a fastening bolt 70 is fastened to the pressing ring 60. A fastening part formed on an end of the fastening bolt 70 is engaged with the fastening bolt 70, (23) is formed on the outer circumferential surface of the bulging portion (21).

Particularly, in the present invention, the second rubber ring seating portion 61 is provided in the pressing ring 60 so that the second rubber ring 40 can be inserted into a position symmetrical to the first rubber ring 30, It can be confirmed that a compression ring 50 for transmitting a pressing force is sandwiched between the rubber ring 30 and the second rubber ring 40.

Particularly, in the present invention, a leak sensor 100 for detecting the leakage of the connection portion is mounted. It is preferable that the water leakage sensor 100 in this embodiment is a pressure sensor that is operated by sensing the water pressure.

As shown in FIG. 4, the water pressure value sensed by the water leakage sensor 100 is transmitted to the administrator through the transmitter 200 in a wireless manner, so that the manager can promptly .

At this time, the sensing sensor 100 is provided with a GPS coordinate value assigning unit 110 or a frequency generating unit 120 and a pressure value generating unit 130 for generating a specific frequency, The administrator can quickly check the pipe connection location.

In the figure, a reference numeral 100a denotes a wire connected to the leak sensor 100 for signal transmission. Hereinafter, the operation and effect of the double-index cast iron pipe according to the present invention will be described.

The double index structure of the present invention is installed at a connection portion between pipes during a construction work of a water supply pipe and is constructed by a pressing force of a pressure ring 60, 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 is rotated so as to apply the tightening force by the tightening bolts 70 provided on the pressing ring 60, a pressing force by the pressing ring 60 is applied, so that the first rubber ring 30 and the second rubber The two-way watertight state by the ring 40 can be maintained.

Particularly, in the present invention, since the second rubber ring 40 is in close contact with the outer wall surface of the first tube 10 and the contact state with the inner wall surface of the press ring 60 is maintained, the first rubber ring 30 Even if water leakage occurs due to a decrease in the watertightness of the water ring, the second rubber ring 40 provides a secondary watertight state, so that the water leakage prevention effect at the connection portion of the water supply pipe can be maximized.

Since the pressing ring 50 provided between the first rubber ring 30 and the second rubber ring 40 can transmit the pressing force to the first rubber ring 30 uniformly, The first rubber ring 30 can be prevented from being deformed or damaged during the pressing force transmission process of tightening the first rubber ring 60.

Particularly, according to the present invention, when leakage occurs in the first rubber ring 30, the leak sensor 100 senses the leakage, and a signal is transmitted to the manager through the transmitter 200 to quickly recognize that an internal leak has occurred .

That is, at this time, the leakage position confirmation is performed by transmitting the GPS coordinate value and the value given to the depth information unit 110 together or generating the specific frequencies (27 kHz, 33 kHz, 83 kHz, 334 kHz) in the frequency generating unit 120, By using the detection equipment (PL1000, SR20), it is possible to know where the leakage occurred and to find the position of the correct repair part.

Meanwhile, when leakage occurs in the first rubber ring 30, the leak sensor 100 senses the leak and the signal is transmitted to the administrator through the transmitter through the transmitter, so that it is recognized that the first leak occurs in the pipe connection .

In this case, since it is not a stage requiring rapid restoration, it is not necessary to carry out urgent construction work. It is possible to prevent leakage of water from the water tap by selectively performing a recovery operation before the occurrence of the second leak.

Accordingly, according to the present invention, since the double exponential function is exhibited on the connection portion of the water pipe, it is possible to maximize the effect of preventing water leakage, and it is possible to quickly and accurately confirm the occurrence of the first leakage in the pipe connection portion. It is possible to prevent the occurrence of external leakage of the waterworks in advance by carrying out a recovery operation in advance.

5 and 6 show a configuration according to a second embodiment of the present invention. An O-ring packing material 90 for improving watertightness with the expanded portion 21 is formed inside the pressurizing ring 60 60a are formed in the latching jaw 23 or the pressing ring 60 so that the position of the packing material 90 can be supported.

A Teflon coating layer 41 is formed on the inner circumferential surface of the second rubber ring 40 in contact with the first tube 10. The Teflon coating layer 41 is composed of 30 to 50 wt% of Teflon powder, 20 to 30 wt% 10 to 30% by weight of glass fiber, and 10 to 20% by weight of oyster shell powder.

With this configuration, it is possible to prevent the leakage of water leaking into the gap between the expanding portion 21 and the pressurizing ring 60 due to the lowering of the exponential function of the first rubber ring 30, Thereby exhibiting an advantage that the leakage preventing effect can be further maximized.

Particularly, the packing material 90 is seated and supported in the packing material receiving grooves 23a, 60a formed on the wall surface of the latching jaw 23 or the pressurizing ring 60, so that the packing material 90 can be stably supported and the latching jaw 23, The watertightness due to the increase of the contact area with the ring 60 can be improved.

Since the lubricant Teflon coating layer 41 is formed on the inner circumferential surface of the second rubber ring 40, the frictional force with the outer wall surface of the first tube 10 is reduced to prevent the damage due to friction, 60) can be smoothly transmitted to the compression ring (50) side.

Particularly, in addition to Teflon powder, the Teflon coating layer 41 is mixed with glass fiber and oyster shell powder for durability enhancement, so that damage and deformation of the coating layer can be prevented.

7 and 8 show the construction according to the third embodiment of the present invention in which both side walls of the compression ring 50 form the convex curvature portion 51 and the convex curvature portion 51 corresponds to the convex curved portion 51 It is confirmed that the concave curved surface portions 31 and 41 are formed on the sidewall surfaces of the first rubber ring 30 and the second rubber ring 40.

Particularly, since the curvature R of the convex curvature portion 51 is formed to be larger than the curvature r of the concave curvature portions 31 and 41, the concave curvature portions 31 and 41 are formed in the pressing action by the convex curvature portion 51, So that the upper and lower portions thereof can be pushed up and down, respectively.

The pressing force is sequentially transmitted to the second rubber ring 40, the compression ring 50, and the first rubber ring 30 when the pressing force is applied by the pressing ring 60. In this case, The adhesion of the first rubber ring 30 and the second rubber ring 40 to the upper and lower structures is increased due to the pressing action on the curved pressure surface.

That is, when the compression ring 50 is pressed against the convex curvature portion 51, the upper and lower portions of the concave curved portions 31 and 41 are pushed upward and downward, respectively, And the upper portion is maximized in adhesion force with the inner wall surface of the pressurizing ring 60 and the expanded portion 21, so that water tightness is improved.

9 and 10 illustrate a structure according to a fourth embodiment of the present invention. In the first rubber ring 30, a first rubber ring seating portion 22 on the inner wall surface of the expansion portion 21, And the expansion projecting portions 31a and 31b are formed in symmetrical shapes so that the first rubber ring mounting portion 22 can be closely contacted by the internal water pressure on both sides of the inlet of the hydraulic expansion groove 31. [ As shown in Fig.

In such a configuration, water leaking from the connecting portion of the first pipe 10 and the second pipe 20 moves through the gap between the first rubber ring 30 and the first rubber ring receiving portion 22 The expansion joints 31a and 31b formed at the inlet side are expanded by the water pressure of the inflow water and the water tightness with the first rubber ring seating portion 22 is maintained It becomes maximized.

Therefore, it is understood that the leak-barrier effect can be improved because the leakage progression is no longer carried out at the region where the hydraulic expansion groove 31 is formed.

11 and 12 show the configuration of the recess according to the fifth embodiment of the present invention. The protruding protuberance 62 protrudes from the second rubber ring seating portion 61, It can be seen that a vertical jaw 41 having a vertical wall shape is formed on the side wall surface of the second rubber ring 40 so that a horizontal pressing force can be transmitted through the protruding jaws 62.

With this structure, the downward pressing force due to the inclined surface of the second rubber ring seating portion 61 and the pressing force against the horizontal direction due to the protruding protrusion 62 can be applied to the second rubber ring 40 The horizontal force of the second rubber ring 40 can be increased and the pressing force transmission efficiency to the first rubber ring 30 can be improved.

Although specific embodiments of the present invention have been illustrated and described above, it will be appreciated that the leak detection system for water supply pipes of the present invention can be implemented by various modifications by those skilled in the art.

It should be understood, however, that such modified embodiments are not to be understood individually from the spirit and scope of the invention, and such modified embodiments are intended to be included within the scope of the appended claims.

10: first pipe 20: second pipe
21: expansion part 22: first rubber ring seat part
23: latching step 23a, 60a:
30: first rubber ring 40: second rubber ring
41: vertical jaw 50: squeeze ring
60: pressure ring 61: second rubber ring seating part
62: protruding jaw 70: tightening bolt
90: Packing material 100: Leak detection sensor
110: GPS coordinate value assignment 120: Frequency generator
130: pressure value generator 200: field inspection unit (transmitter)

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 fitted in the first rubber ring seating portion 22, 60) is fastened with a fastening bolt (70), and a fastening step (23) is formed around the fastening part (21) so that an end of the fastening bolt (70)
A second rubber ring seating portion (61) is provided on the pressing ring (60) so that the second rubber ring (40) can be inserted at a position symmetrical with the first rubber ring (30);
A compression ring 50 for transmitting a pressing force is interposed between the first rubber ring 30 and the second rubber ring 40;
A water leakage sensor 100 for detecting the occurrence of water leakage in the first rubber ring 30 is formed in the intermediate portion of the pressure ring 60;
Wherein the sensed signal from the water leakage sensor (100) is transmitted to the manager through a transmitter (200), wirelessly or wirelessly. The method according to claim 1,
Wherein the leakage detection sensor (100) uses a pressure sensor to measure the water pressure of the leaked water. The method according to claim 1,
The leakage detection sensor 100 is provided with a GPS coordinate value assignment unit 110 for giving a GPS coordinate value of a corresponding position, a frequency generation unit 120 for generating a frequency, a pressure value generation unit 130 for generating a water pressure value ) Is configured so that the manager can quickly check the position of the connection pipe of the cast iron pipe. The method according to claim 1,
A packing material 90 for improving the watertightness with the expanded portion 21 is formed inside the pressing ring 60 and a stopping portion 23 or a pressing ring 60) is formed with packing seated grooves (23, 60a). The method according to claim 1,
The side walls of the first rubber ring 30 and the second rubber ring 40 corresponding to the convex curved surface portion 51 are formed with concave curved portions 51, Characterized in that a curved portion (31, 41) is formed in the convex curvature portion (51) and a curvature (R) of the convex curvature portion (51) Detection system. The method according to claim 1,
The Teflon coating layer 41 may be formed of 30 to 50 wt% of Teflon powder and 20 to 30 wt% of an acrylic resin. The Teflon coating layer 41 may be formed on the inner circumferential surface of the second rubber ring 40, 10 to 30% by weight of glass fiber, and 10 to 20% by weight of oyster shell powder. The method according to claim 1,
The first rubber ring 30 is provided with a hydraulic expansion groove 31 on a side wall surface corresponding to the first rubber ring seating portion 22 of the wall surface of the expansion portion 21, And the expansion projecting portions (31a, 31b) are protruded symmetrically on both sides of the inlet so as to be able to closely contact the first rubber ring seating portion (22) by internal water pressure. The method according to claim 1,
A protruding protrusion 62 protrudes from the second rubber ring seating portion 61 and a horizontal pressing force is applied to the side wall surface of the second rubber ring 40 corresponding to the protruding protrusion 62, Wherein the vertical tucks (41) are formed in a vertical wall shape so that the vertical tucks (41) can be transmitted. A cast iron pipe according to any one of claims 1 to 8.

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