JP2007163278A - Fluid leakage inspection plug of pipe - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fluid leakage inspection plug capable of very easily performing air bleeding operation in performing fluid leakage inspection. <P>SOLUTION: The fluid leakage inspection plug 20 is easily attached to a terminal of a distributing pipe 19 made of resin. The fluid leakage inspection plug 20 comprises a plug body 25 attachable to the distributing pipe terminal, a push pin 21 that is positioned axially with the plug body 25, can move axially in contact with the inside of the plug body 25, and has a push pin pressing section 23 having an air bleeding passage 36 at its rear end, a packing 22 that is attached to the outer periphery of the tip of the push pin 21 and can liquid-tightly come into contact with the inner surface of the plug body, and a helical spring 42 that is stored inside the plug body 25 and energizes the push pin 21 on the opening side of the distributing pipe 19. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a fluid leakage inspection plug for piping that is piped in a building structure such as a detached house or an apartment house, for example, for water leakage inspection of a water supply hot water supply pipe.

For example, in a detached house or an apartment house, for example, when piping for hot water supply or hot water is provided under the floor, a water leak inspection of the water supply hot water supply pipe is performed in advance before the floor surface is pasted. In this inspection, a water stop plug is fitted into each of the openings of many pipes that have been piped, left under a predetermined water pressure, and the entire pipe system is checked for leaks, especially in the joints. is there.
Incidentally, in recent years, pipes are changing greatly from conventional metal ones to resin ones.

  Now, as this water stop plug used for the fluid leak test | inspection of this piping, for example, a water distribution pipe, there exist some which were disclosed by patent document 1, for example. As shown in FIG. 4, this shows an example of water leakage inspection of the water distribution pipe P piped in the wall W of the building, and the water stop plug 1 for closing the end of the water distribution pipe P is A handle portion 2 for rotating operation, a screw shaft portion 3 screwed into a female screw portion S provided inside an end portion of a water distribution pipe P projecting from the center of an end surface of the handle portion 2, and a handle portion The ring packing 4 is disposed between the end face of the water distribution pipe P and the end face of the water distribution pipe P so as to stop water outside the female screw portion S of the water distribution pipe P.

However, in the case of the water stop plug 1 shown in FIG. 4, since it does not have an air vent structure, the water stop plug must be supplied after water is poured into the water distribution pipe P that has been completed and the air in the water distribution pipe P is expelled. There is a problem that 1 cannot be attached to the end of the water distribution pipe P.
The problem is that if there are only a few distribution pipes, it is sufficient that the worker prepares a bucket or the like at each distribution pipe terminal and waits until the air in the distribution pipe is discharged. Although it may be a problem, the number of water distribution pipes becomes extremely large as the number of rooms increases as in a recent apartment house, and it is realistic to place workers at the terminals of each water pipe as described above. is not.
Therefore, some water stop plugs that can be evacuated instead of the water stop plug 1 shown in FIG. 4 are commercially available.

  As shown in FIG. 5, this type of water stop plug 10 includes a water stop plug main body 11, a screw rod 12 disposed in the water stop plug main body 11 coaxially with the central axis of the water stop plug main body 11, An air vent nut 13 screwed to the rear end of the screw rod 12 via a packing (not shown), and a cylindrical water-stop packing 15 made of elastic rubber or the like attached to the tip of the screw rod 12 The screw rod 12 is moved backward with respect to the water-stop plug body 11 by a screw operation to the upper right in FIG. 5 to expand the diameter by crushing the water-stop packing 15 in the axial direction, and inside the water distribution pipe P. It has a wing nut 14 for bringing it into liquid-tight contact. An air vent through hole 16 is provided in the central shaft portion of the screw rod 12 from the front end to the rear end.

  Reference numeral 17 is a stopper. The stopper 17 has a proximal end fixed to the plug main body 11, and the water distribution pipe P is hidden in a looped portion. If the stopper 17 is provided in this way, even if the water pressure inside the water distribution pipe P increases for some reason or the water stop packing 15 is loosened, the water stop plug 10 is water pressure and vigorously moves backward. It will not be skipped.

As described above, the water-stopping packing 15 is pressed against the inner surface of the end of the water distribution pipe P in a liquid-tight manner, and the water stop plug 10 is attached to the end of the water distribution pipe P. Send in. When the air vent nut 13 screwed into the end of the screw rod 12 is loosened as appropriate, the air compressed by the water supply passes through the air vent through hole 16 in the screw rod 12 and is loosened. The gap between the nut 13 and the screw rod 12 is removed. The air vent nut 13 is tightened again, and the same operation is repeated at other terminals. By repeating this several times, all the air in the water distribution pipe P is pushed out, and water comes out from the air vent. However, since it is not known when the inside of the water distribution pipe P is full, it is common to loosen the air vent nut 13 while preparing to receive water with a bucket or the like.
In this way, since each terminal can be individually ventilated, reliable air venting can be performed with a small number of workers.

JP-A-7-120348

  In the above-described conventional one, the air vent nut 13 is loosened to weaken the pressing of the packing that is interposed between the rear end of the screw rod 12 and the air vent nut 13 so as to remove the air. . However, normally, the number of terminals of the water distribution pipe P is generally at least 10 to 15 systems, and the air venting operation is performed while tightening or loosening the air vent nut 13 while visiting each terminal of the water pipe P. It is very cumbersome to do.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a fluid leak test plug that can perform an air venting operation very easily when performing a fluid leak test in a pipe.

  In order to achieve the above object, the fluid leakage inspection plug for piping according to claim 1 is a fluid leakage inspection plug for piping attached to a terminal of piping made of resin, and the fluid leakage inspection plug can be attached to the piping terminal. A plug body, a push pin positioned coaxially with the central axis of the plug body and movable in the axial direction with respect to the plug body, and is movable in the axial direction while inscribed in the plug body, and has an air vent passage A push pin having a push pin provided at its rear end and a push pin mounted on the outer periphery of the front end of the push pin and capable of being in fluid-tight contact with the inner surface of the plug main body, A packing for preventing leakage, and a spring-like body housed in the plug body and biasing the push pin toward the opening side of the pipe, Is shall.

  According to the fluid leak test plug of the first aspect thus constructed, the air can be vented by simply pressing the push pin pressing portion provided at the rear portion of the push pin during the air venting operation. That is, the air venting operation can be performed very easily.

  Further, the pipe fluid leak test plug according to claim 2 is the pipe fluid leak test plug according to claim 1, wherein the inner wall portion forming the water pipe insertion portion of the plug body has a tip of the plug body. It is characterized by being formed in a length approximately positioned on the insertion surface.

  According to the fluid leakage inspection plug for piping according to claim 2 formed in this way, since the length of the inner wall portion is appropriate, the locking claws excessively bite into the water distribution pipe due to water pressure, and the inspection plug is removed from the water distribution pipe. It is difficult to prevent the tip of the inner wall from colliding with a tool or the like and being damaged.

  The pipe fluid leak test plug according to claim 3 is the pipe fluid leak test plug according to claim 1 or 2, wherein the packing has a ring shape, and the gap between the lower surface and the inner surface of the plug body. The liquid-tight contact is possible.

  According to the fluid leakage inspection plug for piping according to claim 3, the packing has a ring shape, and can be contacted in a liquid-tight manner between the lower surface thereof and the inner surface of the plug body. Therefore, the structure is extremely simple, and therefore, it is easy to manufacture the fluid leakage inspection plug, and the cost can be reduced.

  Further, the pipe fluid leak test plug according to claim 4 is the pipe fluid leak test plug according to any one of claims 1 to 3, wherein the side surface of the packing is tapered toward the upstream side of the pipe. It has a ring shape with a diameter, and is capable of liquid-tight contact between the tapered side surface and the inner surface of the plug body.

  According to the fluid leakage inspection plug for piping according to claim 4, the side surface of the packing has a ring shape whose diameter increases in a tapered shape toward the upstream side of the piping. Since the liquid-tight contact is possible between the side surface and the inner surface of the plug body, the portion receiving the packing on the plug body side is also in a tapered mortar shape, and this mortar-shaped tapered portion serves as a guide. And receiving the tapered side surface of the packing. Therefore, the push pin is difficult to tilt, and the packing and the inner surface of the plug main body are more likely to be liquid-tight. That is, it is possible to provide a fluid leakage inspection plug that can more reliably stop fluid leakage.

  As described above, according to the present invention, it is possible to provide a fluid leakage inspection plug that can perform air bleeding work very easily when performing a fluid leakage inspection in a pipe.

An embodiment of a fluid leakage inspection plug for piping according to the present invention will be described below in detail with reference to FIGS.
FIG. 1 is a longitudinal sectional view showing a state in which a fluid leak test plug 20 (hereinafter simply referred to as a test plug 20) of a pipe according to the present invention is mounted on a pipe, here, for example, at the end of a water pipe 19. FIG. It is a longitudinal cross-sectional view which shows the state which is bleeding the air prior to the fluid leak test.
Incidentally, in FIG. 1 and FIG. 2, in order to explain the air venting operation in an easy-to-understand manner, a packing for stopping the flow of the fluid attached to the outer periphery of the front end portion of the push pin 21 is used for water stop in this embodiment. Only two members of the packing 22 (hereinafter simply referred to as packing 22) and the push pin pressing portion 23 attached to the rear end of the push pin 21 are hatched in the drawing.

As shown in FIG. 1, the plug body 25 of the inspection plug 20 of the present invention is made of, for example, a transparent or translucent resin through which the inside can be seen, and can be attached to the terminal of the water distribution pipe 19 made of resin with a single touch. have. That is, when the end of the water pipe 19 is inserted into the pipe insertion portion 26 of the plug body 25, for example, a locking claw 28 made of stainless steel, for example, embedded in a substantially annular grip ring 27 provided with slits in the circumferential direction. The water pipe 19 is locked by biting into the outer surface of the resin water pipe 19.
Here, when the water distribution pipe 19 inserted into the inspection plug 20 is to be pulled out, the locking claw 28 is inclined in a direction to bite into the outer surface of the water distribution pipe 19 and embedded in the grip ring 27.

Therefore, when a force for inserting the locked water pipe 19 inserted into the test plug 20 and pulling the locked water pipe 19 from the test plug 20 is applied, the locking claws 28 bite into the outer surface of the water pipe 19, and the water pipe 19 is further increased. It becomes difficult to remove from the inspection plug 20.
As described above, the inspection plug 20 of the present invention has a structure that can be attached to the water distribution pipe 19 with a single touch and cannot be easily removed unless a dedicated tool or jig is provided once the distribution plug 19 is attached.

  In FIG. 1, reference numeral 29 is an O-ring for ensuring the liquid tightness between the inspection plug 20 and the outer surface of the water pipe 19, reference numeral 30 is a washer, reference numeral 31 is a support collar, and reference numeral 32 is a cap. The O-ring 29, the washer 30, the grip ring 27, and the support collar 31 are attached by being crimped to the tip of the inspection plug 20 so that the O-ring 29, the washer 30, the grip ring 27, and the support collar 31 do not come out of the inspection plug 20.

  Here, the length of the inner wall portion 51 that forms the water pipe insertion portion 26 of the plug body 25 is formed such that the tip 51 a is substantially positioned on the pipe insertion surface 25 a of the plug body 25. By doing so, if the length of the inner wall portion 51 is short, the locking claw 28 excessively bites into the water distribution pipe due to water pressure or the like, and it becomes difficult to remove the inspection plug 20 from the water distribution pipe 19. It is possible to prevent the tip of the inner wall portion 51 from colliding with the tool and being damaged at times.

  The inner surface of the support collar 31, that is, the contact surface 33 with the grip ring 27 is a tapered surface that is reduced in diameter toward the insertion side of the water distribution pipe 19 of the inspection plug 20 and is attached to the inspection plug 20. When an external force that pulls out the water distribution pipe 19 from the inspection plug 20 acts on the water distribution pipe 19, the grip ring 27 having a slit in the circumferential direction receives the force in the inward direction by the tapered contact surface 33 to reduce the diameter. As a result, the locking claw 28 is also subjected to an internal force and further bites into the outer surface of the water distribution pipe 19, so that the water distribution pipe 19 becomes more difficult to come off.

  Next, the water stop portion of the inspection plug 20 will be described. The push pin 21 positioned coaxially with the central axis of the plug main body 25 of the inspection plug 20 is movable in the axial direction with respect to the plug main body 25. A push pin pressing portion 23 is provided at the rear end of the push pin 21, and this push pin pressing portion 23 is guided while being inscribed in a push pin pressing portion guide portion 35 provided at the rear portion of the plug body 25. Therefore, it can move in the axial direction.

  Further, the push pin pushing portion 23 is provided with an air vent passage 36. When the push pin pushing portion 23 is pushed and the push pin 21 is pushed toward the water distribution pipe 19 against the string winding spring 42 as shown in FIG. The packing 22 made of an elastic body that is attached to the outer periphery of the tip of the push pin 21 and is in liquid-tight contact with the inner surface of the plug body 25, specifically, the packing receiving portion 38, is the packing receiving portion 38. A gap is formed between the inner surface of the plug body 25 and the push pin 21. Specifically, a gap between the push pin 21 and the guide hole 41 of the push pin 21 provided in the plug main body 25 communicates with the upstream side of the water distribution pipe 19. As a result, air or water in the water distribution pipe 19 passes through this gap and leaks out of the inspection plug 20 through the air vent passage 36 provided in the push pin pressing portion 23. The arrows in FIG. 2 indicate the flow of air or water.

  By the way, the air vent passage 36 may be of a size that allows air or water that has passed through the gap between the push pin 21 and the guide hole 41 to leak out of the inspection plug 20. Therefore, for example, there is a gap through which air or water can leak out of the inspection plug 20 between the push pin pressing portion guide portion 35 and the push pin pressing portion 23 provided at the rear portion of the plug body 25. In this case, the air vent passage 36 is formed with this gap.

By the way, it is desirable that the pushing force of the push pin pushing portion 23 is 2 kgf or more and 10 kgf or less. If it is 2 kgf or less, there is a possibility that the push pin pressing portion 23 may be pushed by mistake when it is not necessary. Conversely, if it is 10 kgf or more, for example, the operator may not be able to push in unless he / she puts his / her weight. Because there is.
The pushing force can be adjusted to an appropriate value by changing the spring constant of the string spring 42 or the area of the portion of the packing 22 that receives the fluid pressure according to the magnitude of the fluid inspection pressure.

1 and 2, reference numeral 40 denotes a metal stop ring having a substantially C shape. If the water pressure in the water distribution pipe 19 is abnormally increased or the packing 22 is broken, the push pin 21 is The push pin 21 is attached to the tip so as not to protrude backward. Therefore, for this purpose, the stop ring 40 is mounted on the tip end side of the push pin 21 further than the packing 22, and the outer diameter thereof is the guide hole 41 of the push pin 21 formed in the packing receiving portion 38 of the plug body 25. The outer diameter is larger than the inner diameter.
By the way, the strength of the packing 22 is sufficient and the contact surface with the packing receiving portion 38 is sufficient, so that the packing 22 is not broken by the water pressure of the water distribution pipe 19 or pulled out from the guide hole 41 of the push pin 21. In this case, the stop ring 40 is unnecessary. However, it is preferable to provide the stop ring 40 from the viewpoint of work safety.

  In addition, the string spring 42 indicated by a mark X in the figure has a tip part that is a part of the inner surface of the plug body 20 and a rear end part that is locked to a part of the push pin pressing portion 23, thereby connecting the push pin 21 to the water distribution pipe 19. The spring is urged toward the opening side of the push pin 21, that is, toward the rear end of the push pin 21. In other words, the push pin 21 is biased in a direction in which the packing 22 is pressed against the packing receiving portion 38 of the plug body 25 in a liquid-tight manner.

Further, reference numeral 43 denotes a push pin grinding part in which a part of the surface of the push pin 21 has been scraped off. When the air in the water distribution pipe 19 is vented by increasing the gap between the guide hole 41 and the push pin 21, the air is further vented. It is provided to make it easier. If a sufficient clearance can be secured between the push pin 21 and the guide hole 41, it is not necessary to provide it.
By the way, when this inspection plug 20 is used on site, dust may adhere to the packing 22. In such a case, if the push pin grinding part 43 is provided, there is also an advantage that dust adhering can be pushed away at the time of air bleeding.

Hereinafter, a method for operating the inspection plug 20 will be described.
First, when the installation of the water supply and hot water distribution pipes under the floor and the like is completed, the above-described inspection plug 20 of the present invention is attached to the terminal portion of each water supply and hot water supply pipe 19 with one touch. This state is shown in FIG. As shown in FIG. 1, in this state, one end surface of the packing 22 mounted on the outer periphery of the distal end portion of the push pin 21 is pressed against the surface of the packing receiving portion 38 by the urging force of the string spring 42. . When the inspection plugs 20 are attached to all the terminals of the distribution pipes 19 for each hot water supply and hot water supply, for example, in the case of the header system, water is poured into the distribution pipe 19 from the header side.

When water enters each of the water distribution pipes 19, in each inspection plug 20 attached to the terminal of each water distribution pipe 19, the push pin pressing portion 23 is pushed with a finger as shown in FIG. Push in 19 side. When the push pin 21 is pushed in, the packing 22 that has pressed the surface of the packing receiving portion 38 liquid-tightly by the lower surface of the packing receiving portion 38 by the biasing force of the string spring 42 is separated from the packing receiving portion 38 and the inside of the water distribution pipe 19 and the outside air A passage through which air and water flow is formed.
As a result, the air staying at the terminal portion of the water distribution pipe 19 passes through the gap between the push pin 21 and the guide hole 41 as indicated by the arrow in FIG. Escape to the outside via the extraction passage 36.

When air in the water distribution pipe 19 escapes and water leaks from the air vent passage 36, the push pin 21 returns to the state shown in FIG. The space between the lower surface of the packing 22 and the packing receiving portion 38 of the plug body 25 returns to a liquid-tight state.
After the air is vented in this way, when the end of each water pipe 19 is stopped with the inspection plug 20, the pressure is kept as it is, and the water pipe 19 is checked for water leakage such as a pipe joint. To do.
Incidentally, the effective working distance in the axial direction of the push pin 21 is desirably 2 mm to 10 mm. If it is shorter than 2 mm, it is difficult to confirm whether or not the push pin 21 has been pushed in. On the other hand, if it is 10 mm or more, the pushing amount is too large, and the insertion work becomes difficult.

When the water leak inspection of the water distribution pipe 19 is completed, the water in the water distribution pipe 19 is drained, and then each inspection plug 20 is cut off together with a part of the terminal of the water distribution pipe 19. The one-touch type inspection plug 20 cannot be easily removed from the terminal of the water distribution pipe 19 unless there is a dedicated tool or jig. For this reason, it is usually necessary to cut it off together with the terminal portion of the water pipe 19 with a cutting tool.
In this way, when the portion where the inspection plug 20 of the terminal of the water distribution pipe 19 was attached is cut off, the inspection plug 20 is attached when attaching the pipe joint to attach a faucet device such as a faucet to the terminal. Since the surface of the water distribution pipe P does not have bulges or scratches caused by this, there is an advantage that the pipe joint can be attached to the surface of the water distribution pipe 19 while ensuring a liquid-tight state.

  Thereafter, the inspection plug 20 cut off together with the terminal of the water pipe 19 is pulled out from the terminal portion of the water pipe 19 using a dedicated jig or the like. It goes without saying that the extracted inspection plug 20 can be reused.

FIG. 3 is a longitudinal sectional view showing another embodiment of the inspection plug of the present invention. In FIG. 3, the same components as those shown in FIGS. 1 and 2 are denoted by the same reference numerals, and detailed description thereof is omitted.
The feature of the inspection plug 20 shown in FIG. That is, the packing 22 has a ring shape whose side surface expands in a taper shape toward the upstream side of the water pipe (not shown), and the tapered side surface 45 and the tapered inner surface of the plug body 25 It is in the point which comes to be liquid-tight contact between. Since the tapered side surface 45 and the inner surface of the plug main body 25 can be contacted in a liquid-tight manner in this way, the portion that receives the packing 22 on the plug main body 25 side has a tapered mortar shape. The tapered side surface 45 of the packing 22 is received by the mortar-shaped tapered portion. For this reason, when the push pin 21 moves in the axial direction, it becomes more difficult to tilt, so that the packing 22 and the inner surface of the plug body 25 can be more surely made liquid-tight.
Thus, since the plug main body 25 and the packing 22 are kept in a liquid-tight state by the tapered side surface 45, the water distribution pipe can be stopped more reliably and easily.

In each of the above-described embodiments, only the example in which the fluid leak test plug of the present invention is applied to the water leak test in the distribution pipe 19 for hot and cold water supply is described. However, the test plug 20 of the present invention is a fluid leak of other liquids. It goes without saying that it can also be used for inspection plugs.
It can also be used for an airtight test in gas piping. When used in an airtight test, a pressure measuring valve is attached to one end of a pipe as an object to be inspected, and the inspection plug 20 of the present invention is attached to the other end. After that, gas is sealed from the gas filling port until the pressure is slightly higher than the specified pressure. Thereafter, the air is gradually removed while pushing the push pin pressing portion 23 of the inspection plug 20 of the present invention in small increments, and the pressure in the water distribution pipe 19 is set to a prescribed test pressure. As described above, by using the inspection plug 20 of the present invention, an airtight test at a specified atmospheric pressure can be easily performed.

Moreover, although the test plugs 20 in the respective embodiments described above are all made of resin, the test plug 20 of the present invention is not limited to those made of resin.
However, if it is made of resin, the water permeability can be further increased, and when performing an airtight test as described above, when it is desired to confirm that there is no gas leakage from the piping terminal, the end of the inspection plug 20 is It is preferable because it can be put in water to check whether the internal gas is leaking.

  In each of the above embodiments, if the resin plug body 25 is made transparent or translucent, when the inspection plug 20 is attached to the water distribution pipe 19, the terminal of the water distribution pipe 19 is connected to the pipe insertion portion 26 of the plug main body 25. It can be confirmed from the outside of the inspection plug 20 that an appropriate amount is inserted into the inspection plug 20. Further, it is more preferable that the push pin 21 has a color different from that of the water pipe 19 because the push pin 21 and the water pipe 19 can be easily distinguished. For example, when the color of the water distribution pipe 19 is white, the color of the push pin 21 may be black.

Further, in each of the above embodiments, not only the plug body 25 but also the push pin 21 and the push pin pressing portion 23 are made of resin. More specifically, the parts other than the string spring 42 and the locking claw 28 are made of resin. Therefore, the weight is extremely light compared to the metallic test plug 20, and when the operator carries a plurality of the test plugs 20, transportation is easy and preferable. In addition, if the plug body 25 is made of resin, for example, the resin can be made transparent or translucent so that the insertion amount of the water distribution pipe 19 with respect to the inspection plug 20 can be confirmed from the outside as described above. When the plug body 25 is made of metal, the amount of insertion cannot be confirmed from the outside, and the fluid leakage inspection work becomes difficult.
For the reasons described above, the test plug 20 of the present invention is not limited to a resin plug, but the use of a resin plug can be expected to be more convenient as described above.

  In each of the above embodiments, the push pin 21 is biased by the string spring 42 toward the opening side of the water distribution pipe 19, that is, the rear end side of the push pin 21, but a spring-like body other than the string spring 42 can also be used. For example, a tongue-like plate spring can be embedded in the plug body 25 and the push pin 21 can be urged toward the opening side of the water distribution pipe 19. Therefore, the spring-like body is not limited to the string spring 42.

  Furthermore, in each of the above embodiments, the plug body 25 is provided with a one-touch function, but a normal screw-in type plug body can also be used. However, those having a one-touch function can easily perform inspection work. Moreover, as described above, in the case of the one having the one-touch function, according to a normal procedure, the terminal of the water distribution pipe 19 after inspection is cut off with the inspection plug 20 attached, and a pipe joint is connected to the terminal of the water distribution pipe 19. Since it can be attached to a terminal that is not damaged, it is also possible to expect an effect that water leakage is less likely to occur between the pipe joint and the distribution pipe terminal.

  According to the fluid leakage inspection plug of the present invention configured as described above, it is possible to provide a fluid leakage inspection plug that can very easily perform air bleeding when performing a fluid leakage inspection in a pipe.

1 shows an embodiment of a fluid leak test plug of the present invention, and is a longitudinal sectional view showing a state in which a fluid leak test plug is attached to a terminal portion of a water pipe. It is a longitudinal cross-sectional view which shows the state which is bleeding air with the fluid leak test | inspection plug shown in FIG. It is a longitudinal cross-sectional view which shows another Example of the fluid leak test | inspection plug of this invention. It is a longitudinal cross-sectional view which shows the usage example of the conventional water stop plug. It is a perspective view which shows another conventional water stop plug.

Explanation of symbols

19 Water distribution pipe 20 Inspection plug 21 Push pin 22 Packing 23 Push pin pressing part 25 Plug main body 36 Air vent passage 38 Packing receiving part 40 Stop ring 41 Guide hole 42 String winding spring 43 Push pin grinding part 45 Tapered side surface

Claims (4)

  In a pipe fluid leakage inspection plug attached to the end of a pipe made of resin, the fluid leakage inspection plug is positioned coaxially with a plug main body that can be attached to the pipe end and a central axis of the plug main body. A push pin which is movable in the axial direction with respect to the plug body, has a push pin pressing portion which is movable in the axial direction while being inscribed in the plug body and has an air vent passage at a rear end thereof, and the push pin A packing that is mounted on the outer periphery of the tip of the pin and can be fluid-tightly contacted with the inner surface of the plug main body, and prevents leakage of fluid from the pipe side; and the push pin housed in the plug main body And a spring-like body urging the pipe toward the opening side of the pipe.   2. The pipe fluid leakage according to claim 1, wherein the inner wall part forming the water pipe insertion part of the plug body is formed with a length such that a tip thereof is substantially positioned on a pipe insertion surface of the plug body. Inspection plug.   3. The pipe fluid leakage inspection plug according to claim 1, wherein the packing has a ring shape, and can be liquid-tightly contacted between a lower surface of the packing and an inner surface of the plug body.   The packing has a ring shape whose side surface increases in a taper shape toward the upstream side of the pipe, and can be liquid-tightly contacted between the tapered side surface and the inner surface of the plug body. The fluid leak test plug for piping according to any one of claims 1 to 3.

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