JP4514053B2 - Header and header water stop method - Google Patents

Description

  The present invention relates to a header that branches, for example, a primary side pipe of tap water into a plurality of pipes, and a water stop method for the outside of the header.

  For example, in order to allow cooking, washing, bathing, etc. at home, water pipes are stretched around the house, and headers are used to branch the primary pipe of tap water into these pipes. Is used (see, for example, Patent Document 1). Since these pipes and headers are arranged under the floor of the house, behind the walls, and behind the ceiling, it would be a serious situation if water leaks from this part. Therefore, the pipe and the header are stopped against the outside.

  As an example of a header provided with such a seal structure, the header shown in FIGS. 10 and 11 is known. The header 5 has a header body 510 and a joint 520, and has a structure in which the in-core 530 inserted into the pipe 590 is accommodated in the joint 520 together with the end of the pipe 590. Further, the joint 520 holds the pipe 590 by preventing the pipe 590 from coming off by holding the odd-shaped tubular joint body 521, the O-ring 522 for water stop, which is an interior member housed in the joint body, and the inside of the pipe 590. Each interior member is detached from the joint body 521, the grip ring 523, the spacer 524 that holds the sealing surface of the O-ring 522, the support collar 525 that reduces the diameter of the grip ring 523 so that the grip ring 523 can grip the pipe 590. An end cap 526 is provided so as not to be pulled out.

  Then, when assembling the joint 520, after all the interior members described above are inserted into the joint body 521, the end cap 526 is caulked or screwed to adhere to the joint body 521. The water stop to the outside of the pipe 590 and the in-core 530 in the joint is achieved by sealing the inner surface (or outer surface) of the pipe 590 via O-rings 531 and 532 provided in the in-core 530. Yes.

The header body 510 and the joint 520 are both formed with taper screw portions 510a and 520a, and the header 5 is assembled by tightening the joint 520 to the header body 510 with an appropriate torque while screwing between the taper screw portions. It is supposed to be attached. In addition, the water stop with respect to the header main body 510 and the outside of the joint 520 is achieved by winding a seal tape around the taper screw portion 520 a of the joint 520 in advance and screwing the joint 520 into the header main body 510.
JP 2002-295774 A (page 3-5, FIG. 1)

However, the joint 520 is composed of various interior members in addition to the joint main body 521, and has a large volume in consideration of the fact that the joint is used alone, and it takes time to assemble the joint itself. Further, it is necessary to form the threaded portion of the joint 520 and header body 510 to enhance the water stopping in tape path Neji, the total length of the threaded portion becomes longer, and consequently the volume of the header 5 is increased. For this reason, it takes a lot of time to assemble the header 5, and it is also necessary to check the water stoppage after the header is assembled.

Further, when the header main body 510 is enlarged and the height of the joint 520 attached to the header main body 510 is increased, the material cost and the processing cost are increased when these are made of, for example, boring (CAC406) or the like. . Also, since that is the structure which receives the pressure of the primary side tap water assembly of the coupling 520 and the header body 510, the threaded portion of the joint 520 and the header body 510 to keep the water stopping in the assembly portion It is necessary to seal with a sealing tape. When the seal tape is screwed into the header main body 510 while being wound around the taper screw portion 520a of the joint 520, torque management is required.

  Also, when the operation of inserting the in-core 530 into the pipe 590 is mistaken, the pipe 590 fitted with the in-core 530 is removed together with the joint 520, the C-type grip ring 523 provided in the joint is removed, and the joint 520 and the header main body 510 are removed. The remainder of the seal tape adhering to the taper screw portion 510 a is removed, and the seal tape is wound around the taper screw portion 520 a of the joint 520 again, and the complicated operation of screwing the joint 520 into the header body 510 is required.

  Thus, once the joint 520 is removed from the header body 510, it is necessary to wrap the seal portion of the taper screw portion 520a of the joint 520 again with a seal tape and tighten the taper screw of the joint 520 with a constant tightening torque. It would be a cumbersome task. Moreover, since it is necessary to make the space | interval between adjacent couplings quite large in order to enable these fastening operations, the header itself becomes long in the longitudinal direction.

On the other hand, another conventional header 6 as shown in FIG. 12 is also known. This header 6 has an adapter 620 with a header branch pipe 611 protruding from a header body (not shown), a flange 615 at the tip of the header branch pipe 611, and a flange 625 abutting against the flange 615. Yes. The flange 625 is formed so as to be slightly deviated from the longitudinal center of the adapter 620 toward the header mounting side. Further, two O-ring fitting grooves are formed over the entire circumference in the circumferential direction of the adapter 620 from the flange 625 toward the header mounting side tip, and O-rings 631 and 632 are fitted into the O-ring fitting grooves. , and in the header branch pipe of the header body adapted to form a double seal. Further, the other end portion (upper end portion in the figure) of the adapter 620 is expanded in diameter to form a pipe insertion portion 626. Although the inside of the adapter 620 is not shown here, a fitting cylindrical portion to be fitted into the pipe is formed. The fitting cylindrical portion is provided with two O-rings (not shown), and when the pipe is inserted into the adapter 620, the O-ring forms a double seal portion with the inner periphery of the pipe.

In addition, the header 6 according to this other conventional example is provided with an odd-shaped C-shaped clip 640 which is made of, for example, a metal plate and has elasticity. The clip 640 is formed with an elongated rectangular flange engaging hole 645 that engages with a joint portion of the flange 615 of the header branch pipe 611 and the flange 625 of the adapter 620 in the width direction thereof. . Then, for example, with the pipe inserted into the adapter 620, the operator pushes the adapter 620 into the header branch pipe 611 to bring the flanges into contact with each other, and widens the open end portion 641 of the clip 640 to engage the flange of the clip 640. The abutting flanges 615 and 625 are engaged with the joint hole 645 so that the adapter 620 is fixed to the header branch pipe 611.

Thus becomes large parts of the header 6 is a structure for fixing insert the flange 625 and the clip 640 having elasticity to the flange 615 of the header Body of the adapter 620 that had contact with from the side, the clip 640 also deviates by an external force there is a possibility. Therefore, an extra work of tightening with a band such as a resin is necessary so that the clip 640 does not come off after the clip is attached, and the assembling workability is not good.

  The objective of this invention is providing the header which implement | achieved the water stop structure with respect to the exterior of a header main body and a pipe by simple structure.

In order to solve the above-mentioned problem, a header according to claim 1 of the present invention is:
In a header that branches one pipe into multiple pipes and stops water to the outside,
A header body for branching the flow path;
One end is connected to the pipe and the other end is connected to the header body, a flow passage is formed through the inside, and a seal portion is provided at a connection portion between the header and the pipe, and the header body and the pipe are connected to each other. In-core that keeps liquid-tight against the outside,
A header having a retaining member that detachably holds the in-core on the header body and prevents the pipe from coming off from the header body ,
Each of the in-core seal portions consists of double seal portions via O-rings,
The retaining member has a cylindrical shape, one end of which is reduced in diameter to a degree slightly larger than the outer diameter of the pipe, and the other end is formed with a threaded portion that is detachably screwed with the header body. A retaining cap, a retaining spacer housed inside the pipe retaining cap, and a retaining ring interposed between the retaining spacer and the one end-side reduced diameter portion of the pipe retaining cap;
An engagement groove with the retaining spacer is formed on the inner peripheral surface of the pipe holding cap,
The retaining spacer has a cylindrical shape, and one end thereof is slightly enlarged in diameter, and the one end engages with an engagement groove formed on the inner peripheral wall of the pipe holding cap and is fixedly accommodated in the pipe holding cap. ,
The retaining ring is formed integrally with a C-shaped ring support portion and the ring support portion, has a C-shape and is reduced in diameter toward the inside of the header body in a cross-sectional view, and is once inserted into the pipe. A C-shaped ring is provided to prevent the pipe from coming off from the biting pipe holding cap .

  According to such a header, since only one member consisting of an in-core is interposed between the header body and the pipe, no extra parts are required, and the height is high like a joint attached to the header body of the conventional example. Don't be. That is, the structure is simplified, the overall dimensions can be reduced, and the manufacturing cost can be reduced. Moreover, the sealing tape for attaching the joint to the header main body as in the conventional example is not required, and water stoppage to the outside of the header and the pipe can be achieved with a simple structure.

  In addition, since only one member of the incore is interposed between the header body and the pipe and the incore is an integral structure, there is no risk of water branching between the header and the pipe, reducing the risk of water leakage. be able to.

  Conventionally, torque management was required when tightening the joint to the header, so the space between the pipes was large due to the need for work space between the joints. Since it can tighten, the space | interval of pipes can be made small. As a result, space can be saved with respect to the height and installation width of the header. In addition to this, useless work associated with torque management is not required.

  In addition, in the conventional structure where the header itself is large, the header arrangement space may not be secured by combining the installation space around the water, and the header must be located away from the optimum position around the water. However, in the case of the header according to the present invention, since the size is reduced, there is no need for such a worry.

Moreover, the water stop method for the header according to claim 2 of the present invention is:
A header water-stop method for achieving water-stop for the header body and the outside of the pipe via an in-core provided with a flow passage communicating the header body and the pipe inside,
The header includes the header body, a pipe connected to the header body, one end is fitted to the pipe, the other end is inserted into the header body, and a flow path is formed therethrough, and the header An in-core that keeps the main body and the pipe in a liquid-tight state with respect to the outside, and a retaining member that prevents the pipe from coming off from the header body, and the retaining member is cylindrical and has one end portion A pipe holding cap that is reduced in diameter to a degree slightly larger than the outer diameter of the pipe and that has a threaded portion that is detachably screwed to the header body at the other end, and is accommodated inside the pipe holding cap A retaining ring, and a retaining ring interposed between the retaining spacer and the one end-side reduced diameter portion of the pipe holding cap; An engagement groove with the retaining spacer is formed on the peripheral surface, the retaining spacer has a cylindrical shape, one end portion is slightly enlarged in diameter, and the engagement groove is formed on the inner peripheral wall of the pipe holding cap. It is a header water stop method in which the one end is engaged and fixedly accommodated in the pipe holding cap,
Fitting an incore having a seal portion between the pipe and the pipe to achieve a seal between the pipe and the incore,
Then, by inserting the fitted pipe of the incore in the header body by achieving a seal against the outside of the in-core and header body, there is ensured a seal between the in-core fitted in the pipe and the pipe, wherein It is characterized by achieving a water stop for the outside of the header body and the pipe by achieving a seal between the in-core fitted in the header body and the header body.

Moreover, the water stop method for the header according to claim 3 of the present invention is:
The header is a header water stop method for achieving water stop for the header body and the outside of the pipe through an in-core provided with a flow path communicating the header body and the pipe inside,
The header main body, a pipe connected to the header main body, one end is fitted into the pipe and the other end is inserted into the header main body, and a flow path is formed therethrough, and the header main body and the pipe An in-core that keeps the pipe in a liquid-tight state with respect to the outside, and a retaining member that prevents the pipe from coming off from the header body, and the retaining member has a cylindrical shape and one end of the pipe is outside the pipe. A pipe holding cap having a diameter that is slightly larger than the diameter and having a threaded portion that is detachably screwed to the header body at the other end, and a retaining spacer housed inside the pipe holding cap And a retaining ring that is interposed between the retaining spacer and the one end-side reduced diameter portion of the pipe holding cap, An engagement groove is formed with the retaining spacer, the retaining spacer has a cylindrical shape, one end portion is slightly enlarged in diameter, and the one end portion is engaged with the engagement groove formed on the inner peripheral wall of the pipe holding cap. Combined with the pipe holding cap, the header water-stopping method came to be fixedly housed,
Inserting an in-core having a seal portion between the header body into the header body to seal the header body and the in-core,
Then, the headers fitted the pipe inserted in-core to the main body is possible to seal against the outside of the in-core and the pipe, there is ensured a seal between the in-core fitted in the pipe and the pipe, the header It is characterized by achieving a water stop for the outside of the header body and the pipe by achieving a seal between the in-core fitted to the main body and the header body.

  According to such a water-stopping method of the header, since only one member of the incore is interposed between the header body and the pipe, and between the incore and the header body and between the incore and the pipe is sealed, the header and the pipe There is no worry of water branching between them, and water can be reliably stopped to the outside of the header. In addition to this, the structure is simplified and the overall dimensions can be reduced, and the risk of water leakage can be reduced while reducing the cost.

  In addition, in the conventional structure where the header itself is large, the header arrangement space may not be secured by combining the installation space around the water, and the header must be located away from the optimum position around the water. However, according to the water stopping method for the header according to the present invention, the header itself can be miniaturized, and there is no need for such a concern.

  ADVANTAGE OF THE INVENTION According to this invention, the water stop method of the header and header which implement | achieved the water stop structure with respect to the header main body and the exterior of a pipe by simple structure can be provided.

  Hereinafter, a header according to an embodiment of the present invention will be described with reference to the drawings. As shown in FIG. 1, a header 1 according to an embodiment of the present invention includes a header body 110 that branches a flow path, a pipe 190 that is connected to the header body 110, and one end that is connected to the pipe 190 and the other. The end is connected to the header body 110, the in-core 130 that keeps the space between the header body 110 and the pipe 190 in a liquid-tight state, the in-core 130 is held in the header body 110, and the pipe 190 is prevented from coming off from the header body 110 A pipe holding cap 120 is provided.

  The header main body 110 is made of, for example, a material such as boro gold, and as shown in FIG. 2, the header main body 110 is formed of an elongated circular body having an atypical circular shape when viewed from the end surface. A flat portion 110a is provided.

  As shown in FIG. 1, a common pipe 111 is formed through the header body 110 in the longitudinal direction, and both ends of the common pipe are screwed and connected to, for example, one side pipe of tap water. A female screw portion 111a is formed. In the case of the header 1 according to the present embodiment, two branch pipelines 112 are branched from the common pipeline 111.

  A branch pipe opening 113 (see FIG. 3) that has an annular shape in a top view is formed on the flat surface portion 110 a of the header body 110 so as to protrude. The branch pipe opening 113 is formed with a male screw 113a in the circumferential direction so that the operator can removably screw the pipe holding cap 120 with a finger.

  The in-core 130 is made of, for example, a material such as a gold wire, and has a holder engaging protrusion 135 having a tapered surface on one side at a position slightly deviated from the longitudinal center to the header body insertion side. It is formed over.

  Two O-ring fitting grooves 131 and 132 (see FIG. 1) are formed on the outer peripheral portion of the in-core 130 on the header body insertion side, and O-rings 141 and 142 are formed in these O-ring fitting grooves 131 and 132, respectively. It is mated.

  Two O-ring fitting grooves 133 and 134 are also formed near the end of the pipe fitting side outer peripheral portion of the in-core 130, and two O-rings 143 and 143 are formed in the O-ring fitting grooves 133 and 134. 144 is fitted.

  Note that the inner diameter of the branch pipe 112 is substantially equal to the outer diameter of the in-core 130, and the header main body 110 is connected to the header main body 110 via two O-rings 141 and 142 fitted to the outer peripheral surface of the in-core 130 on the header main body insertion side. The sealing performance with the in-core 130 is ensured.

  Further, the outer diameter of the outer peripheral portion of the in-core 130 on the pipe insertion side is substantially equal to the inner diameter of the pipe into which the in-core 130 is fitted, and by fitting the in-core 130 to the pipe 190, the two O-rings 143 and 144 are interposed. Thus, a tight seal is provided between the in-core 130 and the pipe 190.

  The other surface of the holder engaging protrusion 135 formed on the outer periphery of the in-core 130 is formed perpendicular to the outer peripheral surface, and when the in-core 130 is fitted to the pipe 190, the end of the pipe 190 is connected to this portion. Struck and the insertion of the in-core 130 is restricted.

  The pipe holding cap 120 is made of, for example, brass, and has a cylindrical shape. The upper end of the pipe holding cap 120 has a diameter that is slightly larger than the outer diameter of the pipe 190. The pipe holding cap 120 includes a retaining spacer 160 inside thereof, and a retaining ring 170 interposed between the retaining spacer 160 and the reduced diameter portion of the upper end of the pipe retaining cap 120. A resin cover ring 125 that covers a screwed portion between the pipe holding cap 120 and the header body 110 is detachably provided at the lower end of the pipe holding cap 120.

The retaining spacer 160 is made of, for example, brass and has a cylindrical shape. The upper end portion has a slightly enlarged diameter. The upper end portion engages with the engagement groove 121 of the pipe holding cap 120 and is fixed in the pipe holding cap. It is to be accommodated. Further, the inner wall portion in the vicinity of the other end portion of the retaining spacer 160 is gradually reduced in diameter through the tapered portion. The tapered portion contacts the tapered portion of the holder engaging protrusion 135 of the incore 130 when the incore 130 fitted to the pipe 190 is inserted into the pipe holding cap, and the incore 130 enters the header body. The movement is regulated.

  As shown in FIG. 1, the retaining ring 170 is formed integrally with a ring-shaped C-shaped ring support portion 171 and a ring support portion 171 made of resin, and has a C-shape in a plan view and a header in a cross-sectional view. It consists of a metal C-shaped ring 172 whose diameter is reduced toward the inside of the main body.

  Once the pipe 190 is inserted into the retaining ring 170, the reduced diameter portion of the retaining ring 170 bites into the pipe 190, and even if the pipe 190 is pulled in the reverse direction, the C-shaped ring 172 that bites into the pipe 190 is This prevents the pipe holding cap 120 from coming off and, as a result, prevents the pipe 190 from coming out of the header body 110. A taper portion is formed at the upper end portion of the ring support portion 171. The tapered portion serves to prevent the O-rings 141 and 142 included in the in-core 130 from rolling up when the in-core 130 is inserted.

Next, the procedure and operation for connecting the pipe 190 to the header 1 according to an embodiment of the present invention will be described. Note that FIG. 3 and FIG. 4 is a perspective view showing the assembled relationship between the in-core 1 3 0 a header body 110 and the pipe 190 except for the pipe retaining cap 120.

Initially decorated the locking spacer 160 and retaining ring 170 exits the pipe retaining cap 120. Then, the lower end screw portion of the pipe holding cap 120 is screwed into the screw portion 112 a of the header main body 110. This screwing operation can be easily performed by an operator with a finger. Then, fit the cover ring 125 at the lower end portion of the pipe retaining cap 120 covers the threaded portion of the pipe retaining cap 120 and the header body 110.

On the other hand, the in-core 130 is inserted into the pipe 190 until the holder engaging protrusion 135 of the in-core 130 hits the end of the pipe 190.

  In the insertion operation, the in-core 130 and the pipe 190 into which the in-core 130 is inserted are inserted into the pipe holding cap from the upper end opening of the pipe holding cap 120. This is performed until the taper portion of the holder engaging protrusion 135 of the in-core 130 abuts the taper portion of the pipe holding cap with the reduced diameter of the retaining spacer 160.

When inserting the pipe 190 to the pipe retaining cap 120, two O- rings 141, 142 of the in-core tip is prevented from turned up by the tapered portion formed in the upper end portion of the fastened securely retaining ring 170. Furthermore, C-shaped ring 172 of the fastened securely retaining ring 170 increases in diameter with the insert pipe 190, not a hindrance at the time of pipe insertion. However, once the pipe 190 is inserted, the inner diameter portion of the C-shaped ring 172 bites into the outer peripheral portion of the pipe 190 made of resin, thereby reliably preventing the pipe 190 from coming off.

  By inserting the pipe 190 in which the in-core 130 is inserted into the pipe holding cap 120 in this way, the two O-rings 141, provided in the in-core 130 are provided between the in-core 130 and the branch pipe 112 of the header body 110. 142 is double sealed. The in-core 130 and the pipe 190 are double-sealed by two O-rings 143 and 144 provided in the in-core 130. Accordingly, it is possible to achieve water stoppage to the outside of the pipe 190 and the header body 110 with a simple configuration.

Incidentally, once the or change connect to another branch pipe disconnecting a pipe 190 for some reason after connecting the pipe 190 to the header body 110 from the header body 110, a pipe retaining cap 120 with removing the cover ring 125 with a finger Can be removed by screwing, and the holding cap 120, the in-core 130 and the pipe 190 can be removed from the header main body 110. That is, when connecting the pipe 190 to the header main body 110, it is not necessary to wrap a seal tape around the taper screw portion between the header main body and the joint as in the conventional case, so that the pipe can be removed from the header main body by simple manual work. It becomes possible.

  3 and 4, the header 1 according to the present embodiment has a simplified configuration compared to the header of the conventional structure, so the height and width of the entire header can be reduced. (Refer to the cross-sectional view of the header with the conventional joint (FIG. 6A) and the cross-sectional view of the header 1 according to the present embodiment (FIG. 6B)). For this reason, the header can be arranged at a suitable place in a limited space such as a kitchen, and there is no need for extra piping.

  Subsequently, a modification of the above-described embodiment will be described. The header 2 according to the modification of the above-described embodiment has a configuration in which the special pipe joint 220 shown in FIGS. 7 to 9 is connected to the header body 210. As shown in FIGS. 8 and 9, the pipe joint 220 includes a joint body composed of an in-core 230 and an outer cap 221, a transparent cylinder 240 and a display cylinder 250 housed in the joint body, and a transparent cylinder 240. The retaining ring 261 and the spacer 262 held by the outer cap 221, the torsion spring 263 held by the transparent cylinder 240 and the display cylinder 250, and the display cylinder 250 and the in-core 230. A seal squeezing prevention ring 264 is provided. Then, the display cylinder 250 is reliably moved from the first rotation position to the second rotation position using the elastic restoring force of the torsion spring 263, and the display cylinder 250 is moved to the second rotation position. Therefore, it is possible to confirm the insertion of the pipe 290 into the pipe joint by making it possible to confirm the completion of the pipe insertion from the outside of the pipe joint.

  The in-core 230 includes O-rings 231 and 232 that double-seal between the branch pipe of the header body 210 and the in-core, and O-rings 233 and 234 that double-seal between the pipe 290 and the in-core. .

  8 is a cross-sectional view showing a state in which the pipe 290 has started to be inserted into the pipe joint 220. FIG. 9 shows a state in which the pipe 290 shown in FIG. It is sectional drawing shown.

  Even when such a pipe joint 220 is connected to the header body 210 to assemble the header 2, the inflow passage 230 from the branch pipe 212 to the pipe 290 of the header body 210 is formed through the in-core 230. The header body 210 and the pipe 290 are connected to each other, and a double seal portion is formed by the O-rings 231 and 232 between the header body 210 and the incore 230, and the inner periphery of the incore 230 and the pipe 290 is formed. By forming a double seal portion with O-rings 233 and 234 between the two, there is no need to form an extra water branch channel, and the taper screw portion in the conventional combination of header and joint is sealed. No extra work is required to wind the tape. Therefore, it is possible to achieve the same effects as the above-described embodiment.

  As described above, according to the header according to the present invention, since only one member made of in-core is interposed between the header body and the pipe, no extra parts are required and the joint attached to the header body of the conventional example The height does not increase. That is, the structure is simplified, the overall dimensions can be reduced, and the cost can be reduced. Further, as in the conventional example, the sealing tape for attaching the joint to the header main body is not required, and the waterproofing to the outside of the header is achieved with a simple structure.

  In addition, since only one member of the incore is interposed between the header body and the pipe and the incore is an integral structure, there is no risk of water branching between the header and the pipe, reducing the risk of water leakage. be able to.

  Conventionally, since torque management was required when tightening the joint to the header, the interval between the pipes was increased to secure the work space between the joints. However, the header according to the present invention points to the pipe holding cap. Since it can be tightened, the distance between the pipes can be reduced. As a result, space can be saved with respect to the height and installation width of the header. In addition to this, useless work associated with torque management is not required.

  In addition, in the conventional structure where the header itself is large, the header arrangement space may not be secured by combining the installation space around the water, and the header must be located away from the optimum position around the water. However, in the case of the header according to the present invention, since the size is reduced, there is no need for such a worry.

  Note that the materials described in the above-described embodiments are merely exemplary, and any materials can be used as long as they exhibit the effects of the present invention.

  As described above, the conventional header 5 shown in FIGS. 10 and 11 includes the header body 510 and the joint 520, and the in-core 530 inserted into the pipe 590 is accommodated in the joint 520 together with the end of the pipe 590. It has a structure to do. Further, the joint 520 holds the pipe 590 by preventing the pipe 590 from coming off by holding the odd-shaped tubular joint body 521, the O-ring 522 for water stop, which is an interior member housed in the joint body, and the inside of the pipe 590. Each interior member is detached from the joint body 521, the grip ring 523, the spacer 524 that holds the sealing surface of the O-ring 522, the support collar 525 that reduces the diameter of the grip ring 523 so that the grip ring 523 can grip the pipe 590. An end cap 526 is provided so as not to be pulled out.

  As described above, since the number of parts constituting the header 5 is large, the height direction and the width direction of the joint 520 connected to the header body 510 are inevitably increased, and the header itself is increased in size.

  However, the header 1 in the present invention shown in FIG. 1 includes a header body 110 that branches a flow path, a pipe 190 that is connected to the header body 110, one end connected to the pipe 190 and the other end to the header body 110. An in-core 130 that is connected and maintains a liquid-tight state between the header body 110 and the pipe 190; and a pipe-holding cap 120 that holds the in-core 130 in the header body 110 and prevents the pipe 190 from coming out of the header body 110. The pipe holding cap 120 includes only a retaining spacer 160 therein, and a retaining ring 170 interposed between the retaining spacer 160 and the upper diameter reduced portion of the pipe retaining cap 120. Absent.

  Thus, since the number of parts constituting the header 1 is reduced, the height direction and the width direction of the pipe holding cap 120 connected to the header body 110 can be reduced, and the header itself is smaller than the conventional header. Can be realized.

It is sectional drawing which shows the header concerning one Embodiment of this invention along these longitudinal direction center axis lines with the pipe connected to the said header. It is a disassembled perspective view of the header shown in FIG. It is a perspective view which shows the process of attaching the header shown in FIG. 1, and connecting a pipe except a pipe holding cap. FIG. 4 is a perspective view showing a header assembly and pipe connection process following the header assembly and pipe connection process shown in FIG. 3. FIG. 5 is a perspective view illustrating a header assembly process and a pipe connection completion state following the header assembly process illustrated in FIG. 4. It is sectional drawing (FIG.6 (a)) corresponding to FIG. 1 of the header with the conventional coupling, and sectional drawing (FIG.6 (b)) corresponding to FIG. 1 of the header of this invention. It is a perspective view corresponding to FIG. 5 which shows the modification of the header concerning one Embodiment of this invention. It is sectional drawing corresponding to FIG. 1 of the modification of the header shown in FIG. 7, and has shown the state which started inserting the pipe into a pipe joint. It is sectional drawing which showed the state which inserted the pipe shown in FIG. 8 in the back of the pipe joint further. It is sectional drawing corresponding to FIG. 1 which shows the header provided with the conventional coupling. It is a perspective view which decomposes | disassembles and shows one joint of the header with the conventional joint shown in FIG. FIG. 11 is a perspective view partially showing a conventional header provided with an adapter different from those in FIGS. 9 and 10.

Explanation of symbols

1, 2, 5, 6 Header 110 Header body 110a Flat surface portion 111 Common pipe line 111a Female thread part 112 Branch pipe line 112a Screw part 113 Branch pipe opening part 113a Male thread 120 Pipe holding cap 121 Engaging groove 125 Covering 130 Incore 131 , 132, 133, 134 O-ring fitting groove 135 Holder engaging protrusion 141, 142, 143, 144 O-ring 160 Retaining spacer 170 Retaining ring 171 Ring support 172 C-shaped ring 190 Pipe 210 Header body 212 Branch pipe 220 Pipe joint 221 Outer cap 230 In-core 231, 232, 233, 234 O-ring 240 Transparent cylinder 250 Display cylinder 261 Retaining ring 262 Spacer 263 Torsion spring 264 Seal twist Stop ring 290 Pipe 510 Header body 510a, 520a Taper thread portion 520 Joint 521 Joint body 522 O-ring 523 Grip ring 524 Spacer 525 Support collar 526 End cap 530 In-core 531 532 O-ring 590 Pipe 611 Header branch pipe 615 Flange 620 Adapter 625 Flange 626 Pipe insertion part 631,632 O-ring 640 Clip 641 Open end 645 Flange engagement hole

Claims (3)

In a header that branches one pipe into multiple pipes and stops water to the outside,
A header body for branching the flow path;
One end is connected to the pipe and the other end is connected to the header body, a flow passage is formed through the inside, and a seal portion is provided at a connection portion between the header and the pipe, and the header body and the pipe are connected to each other. In-core that keeps liquid-tight against the outside,
A header having a retaining member that detachably holds the in-core on the header body and prevents the pipe from coming off from the header body ,
Each of the in-core seal portions consists of double seal portions via O-rings,
The retaining member has a cylindrical shape, one end of which is reduced in diameter to a degree slightly larger than the outer diameter of the pipe, and the other end is formed with a threaded portion that is detachably screwed with the header body. A retaining cap, a retaining spacer housed inside the pipe retaining cap, and a retaining ring interposed between the retaining spacer and the one end-side reduced diameter portion of the pipe retaining cap;
An engagement groove with the retaining spacer is formed on the inner peripheral surface of the pipe holding cap,
The retaining spacer has a cylindrical shape, and one end thereof is slightly enlarged in diameter, and the one end engages with an engagement groove formed on the inner peripheral wall of the pipe holding cap and is fixedly accommodated in the pipe holding cap. ,
The retaining ring is formed integrally with a C-shaped ring support portion and the ring support portion, has a C-shape and is reduced in diameter toward the inside of the header body in a cross-sectional view, and is once inserted into the pipe. A header comprising a C-shaped ring for preventing the pipe from coming off from the biting pipe holding cap . A header water-stop method for achieving water-stop for the header body and the outside of the pipe via an in-core provided with a flow passage communicating the header body and the pipe inside,
The header includes the header body, a pipe connected to the header body, one end is fitted to the pipe, the other end is inserted into the header body, and a flow path is formed therethrough, and the header An in-core that keeps the main body and the pipe in a liquid-tight state with respect to the outside, and a retaining member that prevents the pipe from coming off from the header body, and the retaining member is cylindrical and has one end portion A pipe holding cap that is reduced in diameter to a degree slightly larger than the outer diameter of the pipe and that has a threaded portion that is detachably screwed to the header body at the other end, and is accommodated inside the pipe holding cap A retaining ring, and a retaining ring interposed between the retaining spacer and the one end-side reduced diameter portion of the pipe holding cap; An engagement groove with the retaining spacer is formed on the peripheral surface, the retaining spacer has a cylindrical shape, one end portion is slightly enlarged in diameter, and the engagement groove is formed on the inner peripheral wall of the pipe holding cap. It is a header water stop method in which the one end is engaged and fixedly accommodated in the pipe holding cap,
Fitting an incore having a seal portion between the pipe and the pipe to achieve a seal between the pipe and the incore,
Next, by inserting the pipe fitted with the in-core into the header body and sealing the outside of the in-core and the header body, the pipe and the in-core fitted to the pipe are sealed, and features and to Ruhe Dda waterproofing method of achieving a water stop for the outside of the header body and the pipe by achieving a seal between the in-core fitted in the header body and the header body. A header water-stop method for achieving water-stop for the header body and the outside of the pipe via an in-core provided with a flow passage communicating the header body and the pipe inside,
The header, the header main body, a pipe connected to the header main body, one end is fitted into the pipe and the other end is inserted into the header main body, and a flow path is formed therethrough; and An in-core that keeps the header body and the pipe in a liquid-tight state with respect to the outside, and a retaining member that prevents the pipe from coming off from the header body; and the retaining member is cylindrical and has one end portion A pipe holding cap having a diameter that is slightly larger than the outer diameter of the pipe and having a threaded portion that is detachably screwed to the header body at the other end, and is accommodated inside the pipe holding cap. A pipe retaining cap provided with a retaining ring and a retaining ring interposed between the retaining spacer and the one end-side reduced diameter portion of the pipe retaining cap. An engagement groove with the retaining spacer is formed on the inner peripheral surface, the retaining spacer has a cylindrical shape, one end is slightly enlarged in diameter, and the engagement groove is formed on the inner peripheral wall of the pipe holding cap. Is a water stop method for a header that is engaged with the one end and fixedly accommodated in the pipe holding cap,
Inserting an in-core having a seal portion between the header body into the header body to seal the header body and the in-core,
Then, the headers fitted the pipe inserted in-core to the main body is possible to seal against the outside of the in-core and the pipe, there is ensured a seal between the in-core fitted in the pipe and the pipe, the header A method for water-stopping a header, characterized in that water-stopping is performed on the header main body and the outside of the pipe by sealing between the main body and the in-core fitted to the header main body.

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