JP7303991B2 - Resin joint - Google Patents

Description

The present invention relates to resin joints.

BACKGROUND ART In a fluid supply system such as a building water supply system, a plurality of pipes are provided for flowing a fluid (such as water), and these pipes are connected to each other by a resin joint having a curved portion (corner portion). things are known.

Such a resin joint includes a resin joint body having a corner portion integrally formed with the first straight portion and the second straight portion so as to connect the first straight portion and the second straight portion. The first straight portion of the joint body is provided with a first locking mechanism for retaining the first pipe connected to the first straight portion. Further, the second straight portion of the joint body is provided with a second locking mechanism for retaining the second pipe connected to the second straight portion.

As a manufacturing apparatus for injection-molding the joint body of the resin joint, for example, one disclosed in Patent Document 1 is known.
The device includes a core pin positioned end-to-end in a mold to be clamped and opened. This core pin has a body block that moves as the mold is opened and closed, and a movable block provided at the tip of the body block. The core pin is provided with a connecting bar for connecting the main block and the movable block.

One end of the connecting bar is connected to the main block so as to be rotatable about the support shaft, and the other end is connected to the movable block so as to be rotatable about the support shaft. Further, the one end portion of the connecting bar is also connected so as to be able to move relative to the main block in the direction of moving the movable block toward or away from the body block.

In the manufacturing apparatus described above, the core pin in which the movable block is in contact with the main body block is arranged so that the movable blocks face each other in the clamped mold. A resin joint body is formed around the core pin in the mold by injecting a resin for forming the joint body into the cavity around the core pin in the mold. Specifically, of the resin injected into the cavity, the portion around each main block of the core pin becomes the first straight portion and the second straight portion, and the core pin around the mutually mated movable blocks is injected. The joint main body is formed so that the portion of ∑ becomes the corner portion.

Then, when the mold is opened, the body block is moved in a direction in which the ends of the core pins (movable blocks) are separated from each other, that is, in a direction in which the body block is extracted from the mold. At this time, the movable block and the connecting bar move away from the main block and the movable block rotates about the support shaft at the other end of the connecting bar by moving relative to the main block. The movable block is rotated along the curve of the corner portion of the joint main body and extracted from the corner portion. In this way, the core pin is extracted from the resin (joint main body) in the mold and from the same mold.

When the core pin is pulled out of the mold in this way, the movable block is brought closer to the main body block, thereby returning the movable block to the state in which it is in contact with the main body block. After that, as the mold is clamped, the main block is moved in the direction in which the movable block is inserted into the mold, and the movable blocks are put together in the mold.

JP 2016-215639 A

By the way, as a joint body of a resin joint, there is a joint body in which the first straight portion and the second straight portion extend so as to form a substantially right angle. In resin joints, it is desirable to increase the inner diameter of the corners of the joint body in order to reduce the flow resistance of the fluid. It is desired to keep it as small as possible.

However, in the joint body in which the first straight portion and the second straight portion extend so as to form a substantially right angle, if the inner diameter of the mold is kept small and the outer diameter of the movable block is enlarged so as to realize the above-mentioned demands, the metal When inserting the movable block of the core pin into the mold when the mold is clamped, the following problems may occur. That is, when the movable block is inserted into the mold, the portion forming the first straight portion and the second straight portion of the portion inside the mold that forms the inner side of the corner portion of the joint body in the direction of curvature. There is a risk that the movable block will come into contact with the part connected to the

An object of the present invention is to provide a first straight portion inside the mold that forms the corner portion of the joint body when a movable block of a core pin is inserted into the mold for injection molding of the joint body. Another object of the present invention is to provide a resin joint capable of suppressing contact of a movable block with a portion connected to a portion forming a second straight portion.

Means for solving the above problems and their effects will be described below.
A resin joint that solves the above problems is connected to a resin joint body having a corner portion that is integrally formed with the first straight portion and the second straight portion so as to connect the first straight portion and the second straight portion, and the first straight portion. A first locking mechanism for retaining the first pipe and a second locking mechanism for retaining the second pipe connected to the second straight portion are provided. A thick portion is provided at a portion connected to the first straight portion and a portion connected to the second straight portion on the inner side of the corner portion in the bending direction of the outer periphery of the corner portion.

According to the above configuration, the first straight portion and the second straight portion are formed in the inside of the mold for injection molding the joint main body and forming the inner side of the corner portion of the joint main body in the bending direction. A space for forming the thick portion at the corner portion of the joint body is formed in the portion connected to the portion where the joint body is connected. Since the outer surface of the thick portion is formed as described above, this space can be used as an escape space for the movable block of the core pin when the movable block is inserted into the mold. By forming the escape space in the mold in this manner, it is possible to prevent the movable block from coming into contact with the inside of the mold when the movable block is inserted into the mold. Since the outer surface of the portion between the thick portions in the corner portion is formed as described above, it is possible to keep the thickness of the corner portion small while increasing the inner diameter of the corner portion.

Sectional drawing which shows a joint made from resin. Sectional drawing which expands and shows the part around a holding member in the inside of a cap. The side view which shows a joint main body. (a) is a cross-sectional view showing a joint main body, and (b) and (c) are cross-sectional views showing the state of the joint main body of (a) as seen from the direction of the arrow AA. The side view which shows roughly the manufacturing apparatus of resin-made joints. FIG. 4 is a cross-sectional view showing a core pin placed in a mold for forming a joint body; FIG. 5 is a cross-sectional view showing how the other end of the connecting bar is connected to the support shaft, and how the support shaft is connected to the tubular body and the main body block; FIG. 4 is a cross-sectional view showing a core pin moved in an extracting direction from a mold for forming a joint body; FIG. 4 is a cross-sectional view showing the relationship between the inner shape of the mold and the movable block of the core pin. FIG. 4 is a cross-sectional view showing the relationship between the inner shape of the mold and the movable block of the core pin.

An embodiment of the resin joint will be described below with reference to FIGS. 1 to 10. FIG.
The resin joint 1 shown in FIG. 1 is a pipe 6 (first pipe) and a pipe 8 (second pipe) extending in a direction perpendicular to each other among a plurality of pipes for flowing water in a building water supply system or the like. is provided to connect This resin joint 1 includes a resin joint body 5 having a corner portion 4 formed integrally with a first straight portion 2 and a second straight portion 3 so as to connect them. As the resin forming the joint main body 5, for example, a mixture of polyphenylene sulfide resin and glass fiber may be used.

In the joint main body 5, the first straight portion 2 and the second straight portion 3 are formed in a cylindrical shape extending linearly in directions perpendicular to each other. It is formed in a cylindrical shape curved in an arc so as to connect 3. The first straight portion 2 is provided with a first locking mechanism 7 that prevents the pipe 6 connected to the first straight portion 2 from coming off. Further, the second straight portion 3 is provided with a second locking mechanism 9 for preventing the pipe 8 connected to the second straight portion 3 from coming off.

Further, on the inner circumference of the corner portion 4 of the joint body 5, the boundary portion with the first straight portion 2 is an inlet portion 4a, and the boundary portion with the second straight portion 3 is an outlet portion 4b.
A vertex portion 4c is provided at an intermediate position between the inlet portion 4a and the outlet portion 4b on the inner circumference of the corner portion 4. As shown in FIG. The inner peripheral surfaces of the inlet portion 4a, the outlet portion 4b, and the vertex portion 4c are each formed in a perfect circle. They are smoothly connected, and the inner peripheral surface of the vertex portion 4c and the inner peripheral surface of the outlet portion 4b are smoothly connected. Incidentally, the inner diameters of the inlet portion 4a and the outlet portion 4b are made larger than the inner diameter of the vertex portion 4c. Therefore, the inner diameter of the corner portion 4 gradually increases from the vertex portion 4c toward the inlet portion 4a, and gradually increases from the vertex portion 4c toward the outlet portion 4b.

A housing portion 11 for housing the end portion of the pipe 6 on the upstream side of the pipes 6 and 8 is provided in a portion of the inner peripheral surface of the first straight portion 2 near the corner portion 4 . A stepped portion 12 is formed between the inner peripheral surface of the accommodating portion 11 and the inner peripheral surface of the inlet portion 4a at the corner portion 4, and the stepped portion 12 and the inner peripheral surface of the inlet portion 4a are substantially perpendicular to each other. state. A tubular inner core 13 made of metal is inserted into the end of the pipe 6 . The in-core 13 is prevented from sinking into the pipe 6 by a flange 13 a formed at the end of the in-core 13 . Then, the end of the pipe 6 is moved from the end of the first straight portion 2 to the accommodation portion 11 in the first straight portion 2 until the in-core 13 inserted into the end of the pipe 6 hits the stepped portion 12 . is inserted into the inner peripheral surface of the

A sealing portion 14 having a diameter larger than that of the accommodating portion 11 is provided in a portion between the accommodating portion 11 and the end portion of the first straight portion 2 on the inner peripheral surface of the first straight portion 2 . A seal ring 15 , a spacer 16 , a seal ring 17 , and a retaining ring 18 are arranged in this order in the seal portion 14 from the housing portion 11 side toward the end portion side of the first straight portion 2 . Then, when the end of the pipe 6 is inserted into the accommodating portion 11 of the first straight portion 2, the pipe 6 penetrates the seal ring 15, the spacer 16, the seal ring 17, and the retaining ring . At this time, the seal rings 15 and 17 in the seal portion 14 come into contact with the outer peripheral surface of the pipe 6 , so that the water flowing through the joint main body 5 is prevented from contacting the outer peripheral surface of the pipe 6 and the inner peripheral surface of the seal portion 14 . Leakage to the outside of the resin joint 1 through the gap is suppressed.

The first locking mechanism 7 includes a holding member 19 for holding the pipe 6 on the first straight portion 2 and a cap 20 for attaching the holding member 19 to the first straight portion 2 . The holding member 19 is provided with an annular lock ring 23 positioned between the fitting ring 21 and the split ring 22 . The holding member 19 is positioned adjacent to the holding ring 18 arranged on the seal portion 14 of the first straight portion 2 .

Also, the cap 20 is formed in a cylindrical shape. In the inner peripheral surface of the cap 20, a portion closer to one end has a larger diameter than a portion closer to the other end. A split ring 22 and a lock ring 23 are inserted into the cap 20 from one end (the end on the large diameter side) of the cap 20 . Furthermore, in a state in which the split ring 22 and the lock ring 23 are arranged in a portion near the other end (the end on the small diameter side) inside the cap 20, the fitting ring 21 is fitted to the one end of the cap 20. It is inserted into the cap 20 from the end side. By fitting the fitting ring 21 and the split ring 22 against the inner peripheral surface of the cap 20 so as to sandwich the lock ring 23, the split ring 22 and the lock ring 23 are removed from the inside of the cap 20. be discouraged from doing so.

FIG. 2 shows an enlarged view of the portion around the holding member 19 (fitting ring 21, split ring 22, lock ring 23) inside the cap 20. As shown in FIG. As can be seen from the figure, on the inner peripheral surface of the cap 20, the portion where the lock ring 23 and the fitting ring 21 are arranged has a larger diameter than the portion where the split ring 22 is arranged, and The portion where the lock ring 23 is arranged and the portion where the fitting ring 21 is arranged are flush with each other. On the other hand, as shown in FIG. 1, on the inner peripheral surface of the cap 20, the portion closer to one end (the end on the large diameter side) of the cap 20 than the portion where the fitting ring 21 is arranged has , an inward claw portion 20a is formed. The inward claw portion 20 a can be engaged with an outward claw portion 29 formed on the outer peripheral surface of the first straight portion 2 .

Then, with the holding member 19 held inside the cap 20, one end of the cap 20 is directed toward the end of the first straight portion 2, and the first straight portion 2 side of the cap 20 is pushed. By pushing in, the inner peripheral surface of one end of the cap 20 is radially overlapped with the outer peripheral surface of the first straight portion 2 . At this time, the inward claw portion 20a of the cap 20 rides over the outward claw portion 29 of the first straight portion 2, so that the inward claw portion 20a and the outward claw portion 29 are engaged with each other. Through the engagement between the inward claw portion 20a and the outward claw portion 29, the first locking mechanism 7 comprising the cap 20 and the holding member 19 is assembled to the first straight portion 2. As shown in FIG.

Further, when the inward claw portion 20a of the cap 20 climbs over the outward claw portion 29 of the first straight portion 2, one end portion of the cap 20 is elastically deformed in the direction in which the diameter expands (the arrow direction in FIG. 2). However, at that time, the positions of the lock ring 23 and the fitting ring 21 may shift in the radial direction (vertical direction in FIG. 2) or axial direction (horizontal direction in FIG. 2) of the cap 20 . If there is a step or the like between the portion where the lock ring 23 is arranged and the portion where the fitting ring 21 is arranged on the inner peripheral surface of the cap 20, the following problems may occur. be. That is, after the inward claw portion 20a of the cap 20 climbs over the outward claw portion 29 of the first straight portion 2, when the cap 20 tries to return to the state before deformation, the radial direction and the axial direction The lock ring 23 and fitting ring 21 that have shifted in the direction may get caught on the step and be unable to return to the proper state as shown in FIG.

However, on the inner peripheral surface of the cap 20, the portion where the lock ring 23 is arranged and the portion where the fitting ring 21 is arranged are flush with each other, so that the above step does not occur. When it returns to the state before deformation, the lock ring 23 and the fitting ring 21 are not caught by the above-mentioned steps. Therefore, when the cap 20 returns to its pre-deformation state, the lock ring 23 and the fitting ring 21 are in the proper state as shown in FIG. It will return to the proper state that was set.

When the pipe 6 is connected to the first straight portion 2, the first lock mechanism 7 (the holding member 19 and the cap 20) is attached to the first straight portion 2, and the end portion of the pipe 6 is is inserted through the holding member 19 and the cap 20 from the end of the first straight portion 2 into the accommodating portion 11 as shown in FIG. When the end portion of the pipe 6 is inserted into the housing portion 11 in this manner, the split ring 22 and the lock ring 23 of the holding member 19 press the outer peripheral surface of the pipe 6 . This prevents the pipe 6 from slipping out of the first straight portion 2 .

In the joint main body 5 of the resin joint 1, the second straight portion 3 and the second locking mechanism 9 have substantially the same configurations as the first straight portion 2 and the first locking mechanism 7, respectively. For this reason, in the following description of the second straight portion 3 and the second locking mechanism 9, the same parts as the first straight portion 2 and the first locking mechanism 7 will be referred to as the first straight portion 2 and the first locking mechanism 7. The same reference numerals are given and the description is omitted.

A housing portion 11 for housing the end portion of the pipe 8 on the downstream side of the pipe 6 and the pipe 8 is provided in a portion of the inner peripheral surface of the second straight portion 3 near the corner portion 4 . A stepped portion 12 is formed between the inner peripheral surface of the accommodation portion 11 and the inner peripheral surface of the outlet portion 4b at the corner portion 4, and the stepped portion 12 and the inner peripheral surface of the outlet portion 4b are substantially perpendicular to each other. state. An inner core 13 is inserted into the end of the pipe 8 . The in-core 13 is prevented from sinking into the pipe 8 by the flange 13a. Then, the end of the pipe 8 is moved from the end of the second straight portion 3 to the accommodation portion 11 in the second straight portion 3 until the inner core 13 inserted into the end of the pipe 8 hits the stepped portion 12 . is inserted into the inner peripheral surface of the A second lock mechanism 9 prevents the pipe 8 from slipping out of the second straight portion 3 .

Next, the outer shape of the corner portion 4 of the joint body 5 will be described in detail.
As shown in FIG. 3, the corner portion 4 is formed in a tubular shape curved in an arc, and is connected to the first straight portion 2 and the second straight portion 3 at both ends in the bending direction. A thick portion 10 is provided at a portion connected to the first straight portion 2 and a portion connected to the second straight portion 3 inside the corner portion 4 in the bending direction of the outer periphery of the corner portion 4 . A rib 41 extending along the direction of curvature of the corner portion 4 protrudes from the outer periphery of the corner portion 4 on the outside in the direction of curvature of the corner portion 4 . In addition, from the thick portion 10 adjacent to the first straight portion 2 to the thick portion adjacent to the second straight portion 3 along the curving direction, there is a thick portion 10 adjacent to the first straight portion 2 along the curving direction of the corner portion 4 on the outer periphery of the corner portion 4 . A rib 42 extending over 10 is protrudingly formed.

4(a) shows a cross section of the joint body 5, and FIGS. 4(b) and 4(c) show the joint body 5 of FIG. 4(a) viewed from the direction of arrow AA. there is As shown in FIGS. 4(b) and 4(c), the thickness of the thick portion 10 at the corner portion 4 is made thicker than the thickness of other portions of the corner portion 4. As shown in FIGS. It should be noted that only the thick portion 10 adjacent to the first straight portion 2 is shown in FIGS. 4(b) and 4(c).

A two-dot chain line L1 in FIG. 4(b) indicates the inside of the corner portion 4 shown in FIG. 1 shows a state in which the inner channel cross section is projected in the axial direction of the first straight portion 2 (hereinafter referred to as a projected channel cross section). In addition, the two-dot chain line L2 in FIG. 4C indicates the outer peripheral surface of the portion corresponding to the thick portion 10 in the corner portion 4 when the thickness of the portion corresponding to the thick portion 10 is the same as that of the portion other than the thick portion 10. showing. In other words, the two-dot chain line L2 is the outer peripheral surface of the portion between the thick portions 10 of the corner portion 4 when it is assumed that the outer peripheral surface is extended toward the first straight portion 2 along the curve of the corner portion 4. The connecting portion of the extension portion with the first straight portion 2 is shown.

The outer surface of the thick portion 10 adjacent to the first straight portion 2 at the corner portion 4 is curved so as to follow the two-dot chain line L1 (outer edge of the projected flow path cross section: FIG. 4A). ing. Further, the thick portion 10 is formed so that a portion of the thick portion 10 protruding outward from the two-dot chain line L2 (FIG. 4(b)) has a crescent-shaped cross section. The outer surface of the thick portion 10 adjacent to the second straight portion 3 at the corner portion 4 is also formed in the same manner as the outer surface of the thick portion 10 adjacent to the first straight portion 2 .

The thick portion 10 adjacent to the first straight portion 2 is formed such that its outer surface extends parallel to the center line of the first straight portion 2 . Further, the outer surface of the thick portion 10 is formed so as to satisfy the following condition (X1). (X1) A portion Pm inside the corner portion 4 (FIG. 4A) and inside the corner portion 4 in the bending direction at an intermediate position between the first straight portion 2 and the second straight portion 3, Assuming that the outer surface of the thick portion 10 is extended in the axial direction of the first straight portion 2, it is positioned closer to the axis of the first straight portion 2 than the extended portion P1a of the outer surface (Fig. 4(c)). ).

Furthermore, the corner portion 4 is formed so as to satisfy the following condition (X2). (X2) Connection of the extended portion with the first straight portion 2 when it is assumed that the outer surface of the portion between the thick portions 10 in the corner portion 4 is extended along the curve of the corner portion 4 toward the first straight portion 2 side. The portion Pm is positioned farther from the axis of the first straight portion 2 than the portion P1b (see FIGS. 4(a) and 4(c)).

On the other hand, the thick portion 10 adjacent to the second straight portion 3 is formed such that its outer surface extends parallel to the center line of the second straight portion 3 . Further, the outer surface of the thick portion 10 is formed so as to satisfy the following condition (X3). (X3) The portion Pm is closer to the axis of the second straight portion 3 than the extended portion P2a of the outer peripheral surface of the thick portion 10, assuming that the outer peripheral surface of the thick portion 10 is extended in the axial direction of the second straight portion 3. Located in

Furthermore, the corner portion 4 is formed so as to satisfy the following condition (X4). (X4) A connection portion P2b of the extended portion with the second straight portion 3 when it is assumed that the outer surface between the thick portions 10 in the corner portion 4 is extended along the curve of the corner portion 4 toward the second straight portion 3 side. The portion Pm is located in a direction away from the axis of the second straight portion 3.

Next, a manufacturing apparatus for the resin joint 1, more specifically, a manufacturing apparatus for manufacturing the joint body 5 will be described.
As shown in FIG. 5, the manufacturing apparatus includes core pins 25 and 26 (only the core pin 25 is shown in FIG. 5) arranged in a mold for forming the joint body 5 by injection molding. The molds are a pair of upper and lower molds, a fixed mold 24a positioned on the lower side and a movable mold 24b positioned on the upper side. On the other hand, during mold clamping, the movable mold 24b moves downward to approach the fixed mold 24a.

A bar 36 is fixed to the movable mold 24b so as to protrude obliquely downward and is inserted into a hole 35 formed in the fixed mold 24a. The bar 36 is provided corresponding to each of the core pins 25 and 26 and passes through the main body block 27 of the core pins 25 and 26 .

When the mold is opened, as the movable mold 24b and the bar 36 move integrally, the bar 36 pushes the main block 27 in the direction (rightward in FIG. 5) in which the main block 27 is pulled out from between the movable mold 24b and the fixed mold 24a. . As a result, the body block 27 moves in a direction to be pulled out from between the movable mold 24b and the fixed mold 24a. On the other hand, when the molds are clamped, the bar 36 presses the body block 27 in the opposite direction (to the left in FIG. 5) as the upper fixed mold 24a and the bar 36 move together. As a result, the body block 27 moves in the direction opposite to the direction in which it is pulled out from between the fixed molds 24a.

As shown in FIG. 6, the core pins 25 and 26 arranged between the fixed die 24a and the movable die 24b (within the die) extend in directions perpendicular to each other and in the horizontal direction. The core pins 25 and 26 are provided with the body block 27 described above. Incidentally, FIG. 6 shows a portion of the body block 27 other than the portion through which the bar 36 of FIG. 5 penetrates. The core pins 25 and 26 also have a movable block 28 provided at the tip of the body block 27 . These body block 27 and movable block 28 are connected by a connecting bar 30 .

The body block 27 has an internal space 38 into which the cylinder 34 is inserted. The body block 27 is relatively movable with respect to the cylindrical body 34 in the center line direction of the cylindrical body 34 . A coil spring 27 b is provided between the cylindrical body 34 and the body block 27 in the internal space 38 .

In the body block 27, a hole 39 is formed through the portion between the internal space 38 and the end face of the body block 27 on the movable block 28 side, and the connecting bar 30 is passed through the hole 39. ing. One end of the connecting bar 30 is inserted into the movable block 28 and rotatably connected to a support shaft 31 fixed to the movable block 28 .

More specifically, the movable block 28 is formed with a recess 49 that opens toward the main body block 27 and expands toward the main body block 27, and one end of the connecting bar 30 is inserted into the recess 49. inserted. Further, inside the recess 49 , the support shaft 33 passes through one end of the connecting bar 30 . Both ends of the support shaft 33 in the axial direction (the direction perpendicular to the plane of FIG. 6) are fixed to the movable blocks 28, and one end of the connecting bar 30 is rotatable with respect to the support shaft 33. It's becoming On the other hand, the other end of the connecting bar 30 is inserted into the tubular body 34 in the internal space 38 of the main body block 27, and is rotatable about the support shaft 33 passing through the tubular body 34. Concatenated.

FIG. 7 shows how the other end of the connecting bar 30 is connected to the support shaft 33 and how the support shaft 33 is connected to the cylinder 34 and the main body block 27 . As can be seen from FIG. 7, the support shaft 33 penetrates the other end of the connecting bar 30 and also penetrates the cylindrical body 34 in the radial direction (vertical direction in FIG. 7). The other end of the connecting bar 30 is rotatable with respect to the support shaft 33 . Both ends of the support shaft 33 in the axial direction (vertical direction in FIG. 7) are inserted into slits 32 formed in the body block 27 so as to extend in the same direction as the connecting bar 30. can be moved in the direction in which the slit 32 extends.

In the manufacturing apparatus described above, the movable block 28 of the core pin 25 and the movable block 28 of the core pin 26 are placed in the clamped mold, that is, between the fixed mold 24a and the movable mold 24b (only the fixed mold 24a is shown in FIG. 6). The core pins 25 and 26 are arranged such that the two are butted against each other. In other words, the core pins 25 and 26 are arranged in the mold such that the tips of the core pins 25 and 26 are butted against each other. Molten resin is injected into the cavity 37 around the core pins 25 and 26 in the mold, and the joint body 5 is formed by solidifying the resin around the core pins 25 and 26 .

Specifically, the first straight portion 2 of the joint body 5 is formed around the body block 27 of the core pin 25, the corner portion 4 of the joint body 5 is formed around the movable blocks 28 of the core pins 25 and 26, and the first straight portion 2 of the joint body 5 is formed around the movable block 28 of the core pins 25 and 26. Two straight portions 3 are formed around the body block 27 of the core pin 26 . The cross section of the joint main body 5 shown in FIG. 6 is a cross section of the joint main body 5 in FIGS. 4(b) and 4(c) as viewed from the arrow BB direction.

As the mold is opened, the core pins 25 and 26 are pulled out in a direction separating the movable blocks 28 from each other. When the core pins 25 and 26 are pulled out as described above, only the body block 27 is first moved within the slit 32 within a range in which the support shaft 33 can be relatively displaced, thereby removing the core pins from the first straight portion 2 of the joint body 5 . The body block 27 of 25 is pulled out, and the body block 27 of the core pin 26 is pulled out from the second straight portion 3 . At this time, the body block 27 is moved relative to the cylindrical body 34 and against the elastic force of the coil spring 27b.

After that, when the support shaft 33 connected to the connecting bar 30 contacts the end of the slit 32 of the main body block 27, the movable block 28 (support shaft 31) is pulled to the main body block 27 via the connecting bar 30. Become. The movable block 28 pulled in this manner rotates around the center line of the support shaft 31 connected to the connecting bar 30, thereby rotating along the curve of the corner portion 4 of the joint main body 5 and moving toward the corner. It is withdrawn from part 4. Incidentally, when the movable block 28 is pulled out from the corner portion 4 of the joint main body 5, as the movable block 28 rotates, the end portion of the movable block 28 on the side of the main body block 27 moves toward the first straight portion 2 and the second straight portion 2. The radial direction of the straight portion 3 is greatly swung. At this time, the inner diameters of the accommodating portion 11 and the sealing portion 14 of the first straight portion 2 and the inner peripheral surfaces of the sealing portion 14 of the second straight portion 3 and the inner peripheral surfaces of the accommodating portion 11 and the sealing portion 14 are The length in the centerline direction is predetermined.

FIG. 8 shows a state in which the core pins 25 and 26 are pulled out from the joint body 5 in the mold, more specifically, a state in which the movable blocks 28 of the core pins 25 and 26 are pulled out from the corner portions 4 of the joint body 5 . As can be seen from FIG. 8, in this state, the end portion of the movable block 28 on the side of the main body block 27 is positioned against the inner peripheral surfaces of the housing portion 11 and the seal portion 14 of the first straight portion 2 and the second straight portion 3. no contact. Then, when the movable block 28 is pulled out from the corner portion 4 as described above, the body block 27 and the movable block 28 return to their original positions in contact with each other due to the elastic force of the coil springs 27b. After that, as the molds are clamped, the body block 27 of the core pins 25 and 26 moves in a direction in which the movable blocks 28 (tips of the core pins 26 and 26) approach each other. They are inserted into the mold and mated together as shown in FIG.

By the way, in the resin joint 1, in order to achieve both a reduction in fluid flow resistance and a compact size, it is possible to increase the inner diameter of the corner portion 4 of the joint body 5 while keeping the thickness of the corner portion 4 small. Desired. However, when the outer shape of the movable block 28 and the inner shape of the mold are determined so as to realize such a thing, the inner shape of the mold (only the fixed mold 24a is shown in FIG. 9) is kept small as shown in FIG. The outer shape of the movable block 28 must be increased. In this case, when the movable block 28 of the core pins 25 and 26 is inserted into the mold when the mold is clamped, the portion inside the mold forming the inside of the corner portion 4 of the joint body 5 in the bending direction is Of these, the movable block 28 may come into contact with the portions P1 and P2 connected to the portions forming the first straight portion 2 and the second straight portion 3 .

In order to deal with such problems, the resin joint 1 of the present embodiment is provided with the above-described thick portion 10 at the corner portion 4 of the joint body 5 . By forming the thick portion 10 at the corner portion 4 of the joint body 5 in this manner, the inside of the mold (only the fixed mold 24a is shown in FIG. 10) can be formed as shown in FIG. That is, among the parts inside the mold that form the inner side of the corner part 4 of the joint body 5 in the bending direction, the parts P1 and P2 connected to the parts forming the first straight part 2 and the second straight part 3 are formed. , spaces AR1 and AR2 for forming the thick portion 10 at the corner portion 4 of the joint body 5 can be formed.

The space AR1 is formed so that the outer peripheral surface of the thick portion 10 adjacent to the first straight portion 2 is parallel to the axis of the first straight portion 2 and satisfies the condition (X1). It works as follows. That is, when the movable block 28 of the core pin 25 is inserted into the mold, the space AR1 functions as an escape space for preventing the movable block 28 from coming into contact with the inside of the mold.

The space AR2 is arranged so that the outer peripheral surface of the thick portion 10 adjacent to the second straight portion 3 is parallel to the axis of the second straight portion 3 and satisfies the condition (X3). From the relationship that is being formed, it comes to function as follows. That is, when the movable block 28 of the core pin 26 is inserted into the mold, the space AR2 functions as an escape space for preventing the movable block 28 from coming into contact with the inside of the mold.

By forming such spaces AR1 and AR2 in the mold, it is possible to prevent the movable block 28 from coming into contact with the inside of the mold when the movable block 28 is inserted. Furthermore, since the outer peripheral surface of the portion of the corner portion 4 that is not the thick portion 10 is formed so as to satisfy the above condition (X2) and the above condition (X4), the inner diameter of the corner portion 4 is increased while the corner portion 4 is It is possible to keep the thickness of the portion 4 small. The thick portion 10 of the corner portion 4 of the joint main body 5 injection-molded using the mold corresponds to the spaces AR1 and AR2 (relief spaces for the movable block 28) inside the mold. Become.

According to the resin joint 1 of this embodiment, the following effects can be obtained.
(1) The first straight portion 2 and the second straight portion 3 of the inside of the mold for injection-molding the joint body 5 and forming the inner side of the corner portion 4 of the joint body 5 in the bending direction. Spaces AR1 and AR2 for forming the thick portion 10 in the corner portion 4 are formed in the portions P1 and P2 connected to the portion forming the . When the movable block 28 of the core pins 25 and 26 is inserted into the mold to be clamped, the spaces AR1 and AR2 can be used as escape spaces for the movable block 28. The contact of the movable block 28 with the inside can be suppressed. Further, since the outer peripheral surface of the portion of the corner portion 4 that is not the thick portion 10 is formed as described above, it is possible to keep the thickness of the corner portion 4 small while increasing the inner diameter of the corner portion 4. .

(2) The thick portion 10 thicker than the other portions of the corner portion 4 is formed in the portion connecting to the first straight portion 2 and the portion connecting to the second straight portion 3 in the corner portion 4 of the joint body 5 . there is Therefore, in the corner portion 4 , it is possible to suppress thickening of portions other than the thick portion 10 and to reinforce the portion where the thick portion 10 is formed.

It should be noted that the above embodiment can be modified, for example, as follows.
- The inner diameters of the vertex portion 4c of the corner portion 4, the inlet portion 4a, and the outlet portion 4b of the joint main body 5 may be appropriately changed. For example, the inner diameters of the vertex portion 4c, inlet portion 4a, and outlet portion 4b may be equal.

・The first straight portion 2 and the second straight portion 3 of the joint body 5 extend at right angles, that is, the inclination angle between the center lines of the first straight portion 2 and the second straight portion 3 is 90°. However, such an inclination angle does not necessarily have to be 90°. For example, the inclination angle between the center lines may be a value within a predetermined range including 90°, but may be a value other than 90°.

As the resin forming the joint main body 5, a mixture of polyphenylene sulfide resin and glass fiber was exemplified, but other resins may be used.
- The resin joint 1 may be applied to a fluid supply system other than a water supply system, such as a hot water supply system.

A technical idea that can be grasped from the above embodiment will be described.
A joint body made of resin having a corner portion whose inner side is curved in an arc, which is integrally formed to connect the first straight portion and the second straight portion, and the first straight portion connected to the first straight portion. A first locking mechanism for retaining a pipe and a second locking mechanism for retaining a second pipe connected to the second straight portion, wherein the bending direction of the corner portion on the outer circumference of the corner portion is provided. A thick portion is provided in a portion connected to the first straight portion and a portion connected to the second straight portion inside of the thick portion adjacent to the first straight portion. The outer surface is parallel to the axis of the first straight portion and extends in the direction of curvature of the corner portion at an intermediate position between the first straight portion and the second straight portion inside the corner portion. The inner portion Pm is positioned closer to the axis of the first straight portion than the extended portion P1a of the outer surface when it is assumed that the outer surface is extended in the axial direction of the first straight portion, Assuming that the outer surface of the portion between the thick portions is extended along the curve of the corner portion toward the first straight portion, the corner portion is a connecting portion P1b of the extended portion with the first straight portion. , the portion Pm is positioned away from the axis of the first straight portion, and the outer surface of the thick portion adjacent to the second straight portion is aligned with the axis of the second straight portion. and is formed to be positioned closer to the axis of the second straight portion than the extended portion P2a of the outer surface when it is assumed that the portion Pm extends the outer surface in the axial direction of the second straight portion. has been
Assuming that the outer surface of the portion between the thick portions is extended along the curve of the corner portion toward the second straight portion, the corner portion is a connecting portion P2b of the extended portion with the second straight portion. A resin joint characterized in that the portion Pm is also formed so as to be located in a direction away from the axis of the second straight portion.

DESCRIPTION OF SYMBOLS 1... Resin joint, 2... 1st straight part, 3... 2nd straight part, 4... Corner part, 4a... Inlet part, 4b... Outlet part, 4c... Vertex part, 5... Joint body, 6... Pipe, 7 First locking mechanism 8 Pipe 9 Second locking mechanism 10 Thick portion 11 Accommodating portion 12 Stepped portion 13 In-core 13a Flange 14 Seal portion 15 Seal ring , 16... spacer, 17... seal ring, 18... retaining ring, 19... retaining member, 20... cap, 20a... inward claw portion, 21... fitting ring, 22... split ring, 23... lock ring, 24a... fixation Mold 24b Movable mold 25 Core pin 26 Core pin 27 Body block 27b Coil spring 28 Movable block 29 Outward claw 30 Connecting bar 31 Support shaft 32 Slit , 33... Support shaft, 34... Cylindrical body, 35... Hole, 36... Bar, 37... Cavity, 38... Internal space, 39... Hole, 41... Rib, 42... Rib, 49... Hollow.

Claims (3)

a resin-made joint body having a corner portion that is integrally formed with the first straight portion and the second straight portion so as to connect the first straight portion and the second straight portion;
a first lock mechanism that prevents the first pipe connected to the first straight portion from coming off;
a second locking mechanism that prevents the second pipe connected to the second straight portion from coming off;
with
A thick portion is provided at a portion connected to the first straight portion and a portion connected to the second straight portion on the inner side of the outer circumference of the corner portion in the bending direction of the corner portion,
The thick portion adjacent to the first straight portion and the thick portion adjacent to the second straight portion are formed to bulge independently of each other on the outer surface of the corner portion. Resin fittings. Inside the outer periphery of the corner portion in the direction of curvature of the corner portion, along the direction of curvature extends from the thick portion adjacent to the first straight portion to the thick portion adjacent to the second straight portion. 2. A joint made of resin according to claim 1, wherein ribs extending along the length of the joint are formed to protrude. The thick portion adjacent to the first straight portion has an outer surface extending parallel to the center line of the first straight portion,
3. The thick portion adjacent to the second straight portion has an outer surface formed so as to extend parallel to the center line of the second straight portion. Resin joint.

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