JP7229624B2 - pipe joint - Google Patents

Description

The present invention relates to pipe joints.

BACKGROUND ART Conventionally, a pipe connection device (pipe joint) as described in Patent Document 1 is known. This pipe connection device includes a joint body to be connected to a tube, an inner ring, and a union nut.

In the tube connecting device, when the union nut is tightened, the tube pressing portion presses the tube against the tapering outer peripheral enlarged diameter surface formed on the inner ring.

As a result, a seal is formed between the tube and the tapering outer peripheral expanded surface of the inner ring.

JP 2015-212582 A

As described above, the conventional tube connecting device employs a structure for sealing between the tube and the tapered outer peripheral expanded surface of the inner ring, and it is said that the seal can be reliably achieved. In order to improve the safety of the seal more than ever, there is a demand for further improvement in the sealing performance of pipe connecting devices (pipe joints).

The present invention has been made in view of such circumstances, and an object of the present invention is to improve the sealing performance of a pipe joint.

The present invention
a joint body connected to the tube with the inner ring portion inserted into the tube;
a fastening member that is fastened to the joint body radially outward of the inner ring portion and presses a pressed portion formed in the inner ring portion through the tube;
In the pipe joint, the pressed portion is provided with an annular recess opening radially outward in the circumferential direction of the joint body.

According to this configuration, when the joint body is connected to the tube, the fastening member presses the tube against a plurality of recess peripheral edge portions of the pressed portion of the inner ring portion, thereby It becomes possible to seal between (the joint body) and the tube. Therefore, the number of sealing locations between the inner ring portion and the tube can be increased, and sealing can be performed at more locations (a plurality of locations). Therefore, the safety (reliability) of the seal can be enhanced. As a result, the sealing performance of the pipe joint can be improved.

In addition, since the tube contacts the circumferential edge portions on both sides in the axial direction of the concave portion, it is possible to seal at a plurality of points in the axial direction. Therefore, it is possible to further improve the sealing performance of the pipe joint.

According to yet another aspect of the invention,
A plurality of recesses are provided at predetermined intervals in the axial direction of the inner ring portion.

According to this configuration, it is possible to form a greater number of seal points along the axial direction in the peripheral portion of the recess. Therefore, the sealing performance of the pipe joint can be further improved.

According to another aspect of the invention,
The inner ring portion has a bulging portion that bulges outward in the radial direction,
The pressed portion is formed closer to the front side in the fastening direction of the fastening member than the top portion of the bulging portion.

According to this configuration, when the fastening member is fastened to the joint main body, it is possible to increase the certainty of pressing the tube against the peripheral portion of the concave portion using the fastening member.

According to yet another aspect of the invention,
A second recess, which is different from the recess opening radially outward, is provided in the circumferential direction of the inner ring portion at the top of the bulging portion.

According to this configuration, the tube is pressed against the top portion of the inner ring portion more strongly than other portions, thereby increasing the number of seal points between the inner ring portion (the joint body) and the tube. It becomes possible. Therefore, the sealing performance of the pipe joint can be improved.

According to yet another aspect of the invention,
The joint main body has a main body portion provided with the inner ring portion,
The body portion is configured separately from the inner ring portion.

ADVANTAGE OF THE INVENTION According to this invention, the sealing performance of a pipe joint can be improved.

1 is a cross-sectional view of a pipe joint according to one embodiment of the present invention; FIG. FIG. 2 is a partially enlarged view of FIG. 1; FIG. 2 is a side view of an inner ring portion of a joint body in the pipe joint of FIG. 1; 4 is a partially enlarged view of FIG. 3; FIG. It is a sectional view of the pipe joint of another embodiment. It is a sectional view of a pipe joint of another embodiment.

First, the overall configuration of a pipe joint 1 according to one embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a cross-sectional view of a pipe joint 1 according to one embodiment of the present invention. FIG. 2 is a partially enlarged view of FIG. Note that FIG. 1 shows a state in which one longitudinal end portion 5 of the tube 3 is connected to the pipe joint 1 .

In the following description, the left side of the paper when viewing FIG. 1 (the fastening member 9 side described later) is defined as one axial direction side, and the right side of the paper when viewing FIG. 1 (the joint main body 7 side described later). The other side in the axial direction.

The pipe joint 1 is a member that connects a plurality of pipes used, for example, in semiconductor, liquid crystal, or organic EL manufacturing equipment, pipes in various plants, and pipes in the medical and pharmaceutical fields. The pipe joint 1 can also be used in fields and applications other than those described above. The pipe joint 1 is configured to be connected to the tube 3 and to be connected to a tube other than the tube 3 or a connecting member such as a tank.

Here, the tube 3 has flexibility. In this embodiment, the tube 3 is manufactured using a resin material such as a fluororesin material (for example, polytetrafluoroethylene, tetrafluoroethylene-perfluoroalkyl vinyl ether copolymer).

As shown in FIGS. 1 and 2 , the pipe joint 1 includes a joint body 7 and a fastening member 9 . The pipe joint 1 is manufactured using a resin material such as a fluororesin material in this embodiment. The resin material will be described as an example of fluorine resin, but is not limited to this, and various resins such as polyethylene, polypropylene, polycarbonate, polyamide, polyacetal, polyether ether ketone, polyphenylene sulfide, and polyimide can be used. , the field of use, the application, the material of the tube 3, and the like.

The joint main body 7 is configured to be connected to the tube 3 with the inner ring portion 11 inserted into the tube 3 . In this embodiment, the joint main body 7 has an inner ring portion 11 and a main body portion 13 .

A portion of the inner ring portion 11 on one side in the axial direction is configured to be inserted (press-fitted in this embodiment) into one longitudinal end portion 5 of the tube 3 (hereinafter simply referred to as the end portion 5). there is

The inner ring portion 11 is arranged on one axial side of the joint body 7 .
The inner ring portion 11 is provided on the body portion 13 . In this embodiment, the inner ring portion 11 is configured separately (as a separate member) from the body portion 13 .

Specifically, the inner ring portion 11 is provided so as to protrude from one axial end portion of the body portion 13 . The inner ring portion 11 is formed in a cylindrical shape. The inner ring portion 11 has an inner diameter approximately the same as the inner diameter of the tube 3 .

The inner ring portion 11 has a bulging portion 15 that bulges (expands) radially outward at a portion that is inserted into the tube 3 . The bulging portion 15 is arranged on one axial side of the inner ring portion 11 .

When part of the inner ring portion 11 is press-fitted into the end portion 5 of the tube 3 from the other side in the axial direction, the bulging portion 15 pushes part of the end portion 5 of the tube 3 into the inner ring portion 11 . Expand to fit the shape.

In the present embodiment, the bulging portion 15 is such that the outer diameter of the inner ring portion 11 is gradually reduced from the top portion 52 of the bulging portion 15 toward one side in the axial direction and is gradually reduced from the top portion 52 toward the other side in the axial direction. It is formed so as to contract, and has a sloped portion on each of one side and the other side in the axial direction of the top portion 52 .

A seal protrusion 17 is provided on the other axial side of the inner ring portion 11 . The seal protrusion 17 is formed in a cylindrical shape, and protrudes in the other axial direction with respect to the end 5 of the tube 3 by press-fitting a portion of the inner ring portion 11 into the tube 3 .

An inclined projection 19 is provided on the other axial side of the inner ring portion 11 . The inclined projection 19 is formed in a cylindrical shape. The inclined projection 19 is arranged radially inward of the seal projection 17 .

The inclined protrusion 19 protrudes in the other axial direction. The inclined projection 19 has an inclined surface whose diameter gradually decreases from one axial direction to the other.

The body portion 13 has a tubular portion 21 , a socket portion 23 and a sealing tubular portion 25 . The body portion 13 is arranged on the other axial side of the inner ring portion 11 in the joint body 7 .

The tubular portion 21 is connected to the tube 3 via the inner ring portion 11 and is configured to allow fluid to flow. The tubular portion 21 has an inner diameter that is substantially the same as the inner diameter of the inner ring portion 11 .

The socket portion 23 is configured to receive the end portion 5 of the tube 3 between itself and the inner ring portion 11 . Specifically, the socket portion 23 is provided at one axial end of the cylindrical portion 21 .

The socket portion 23 is formed in a cylindrical shape. The socket portion 23 is arranged radially outward of the inner ring portion 11 . The receptacle portion 23 protrudes in one axial direction from an end portion on one axial side of the tubular portion 21 .

The socket portion 23 can receive therein the other axial side of the inner ring portion 11 and a part of the end portion 5 of the tube 3 into which the inner ring portion 11 is press-fitted. The socket portion 23 has a male thread portion 27 on its outer peripheral portion.

The tubular seal portion 25 is provided at one axial end of the tubular portion 21 . The tubular seal portion 25 is arranged radially inward of the end portion of the socket portion 23 on the other side in the axial direction while being spaced therefrom by a predetermined distance.

The seal tubular portion 25 is provided between the inner ring portion 11 and the tubular portion 21 . The tubular seal portion 25 has an inner diameter approximately the same as the inner diameters of the inner ring portion 11 and the tubular portion 21 .

An inclined surface 29 is provided at one end of the seal tube portion 25 in the axial direction. The inclined surface 29 is formed in an annular shape. The inclined surface 29 faces the inclined surface of the inclined projection 19 and has a surface whose diameter gradually decreases from one side to the other in the axial direction.

A seal groove 31 is formed between the seal cylinder portion 25 and the opposite end portion of the socket portion 23 on the other side in the axial direction. The seal groove 31 is formed in an annular shape. A seal protrusion 17 can be press-fitted into the seal groove 31 .

The fastening member 9 is fastened to the joint main body 7 radially outward of the inner ring portion 11 and configured to press the pressed portion 33 formed on the inner ring portion 11 via the tube 3 .

Specifically, the fastening member 9 is formed in a tubular shape. The fastening member 9 is configured to be fitted (fitted) to the outside of the tube 3 . Then, the fastening member 9 can move in the longitudinal direction (along the axial direction) while fitted on the tube 3 .

The fastening member 9 has a pressing portion 35 and a threaded portion 37 . In this embodiment, the fastening member 9 is a union nut corresponding to the socket portion 23 of the joint body 7 . Note that the fastening member 9 is not limited to a union nut as long as it can press the pressed portion 33 and can be fastened to the body portion 13 .

The pressing portion 35 is arranged on one axial side of the threaded portion 37 . The pressing portion 35 is fitted on the tube 3 and is configured to be movable in the longitudinal direction of the tube 3 .

The pressing portion 35 is formed in a tubular shape. The pressing portion 35 has a portion having an inner diameter slightly larger than the outer diameter of the tube 3 and a portion having an inner diameter larger than the inner diameter of this portion and having a pressing surface 39 for pressing the portion 33 to be pressed. are doing.

The pressing portion 35 is an axially extending portion 41 of the end portion 5 of the tube 3 whose diameter is increased by the bulging portion 15 when one axial side of the inner ring portion 11 is press-fitted into the end portion 5 of the tube 3 . Located on one side.

That is, in this case, the pressing surface 39 of the pressing portion 35 can face the enlarged diameter portion 41 of the tube 3 and press the enlarged diameter portion 41 toward the bulging portion 15 .

The threaded portion 37 is provided at the other axial end of the pressing portion 35 . The threaded portion 37 is arranged radially outward of the pressing surface 39 .

The threaded portion 37 is formed in a cylindrical shape. The threaded portion 37 is adapted so that the receptacle portion 23 of the joint body 7 can be fitted inside (inwardly fitted). The threaded portion 37 has a female threaded portion 43 on its inner periphery.

The female threaded portion 43 is formed to correspond to the male threaded portion 27 of the receptacle portion 23 . In other words, the female threaded portion 43 is fastened to the male threaded portion 27 of the socket portion 23 when the threaded portion 37 fits inside the socket portion 23 .

With the above configuration, the inner ring portion 11 press-fitted into the end portion 5 of the tube 3 is inserted into the socket portion 23 of the joint main body 7, and in this state, the fastening member 9 is screwed to the joint main body 7 in the other axial direction. The tube 3 can be kept connected to the joint main body 7 by tightening them together.

When the connection of the tube 3 to the joint main body 7 is maintained using the fastening member 9 in this way, the pressing portion 35 of the fastening member 9 pushes the enlarged diameter portion 41 of the tube 3 to the bulging portion of the inner ring portion 11 . 15 can be pressed axially and radially inward toward the pressed portion 33 .

As a result, the enlarged diameter portion 41 of the tube 3 can be brought into pressure contact with the bulging portion 15 of the inner ring portion 11 . Therefore, in the pipe joint 1 connected to the tube 3 , the space between the inner ring portion 11 (joint body 7 ) and the tube 3 can be sealed.

Moreover, the seal projection 17 can be press-fitted into the seal groove 31 and the outer peripheral surface of the inclined projection 19 can be brought into pressure contact with the inclined surface 29 of the cylindrical seal portion 25 . Therefore, in the joint body 7 of the pipe joint 1 connected to the tube 3, the space between the inner ring portion 11 and the cylindrical portion 21 can be sealed.

Next, in particular, the configuration of the inner ring portion 11 of the pipe joint 1 will be described in detail with reference to the drawings.

3 is a side view of the inner ring portion 11. FIG. 4 is a partially enlarged view of FIG. 3. FIG.

As described above, when the fastening member 9 is fastened to the joint main body 7, the pressed portion 33 of the inner ring portion 11 is pushed through the end portion 5 of the tube 3 into which a part of the inner ring portion 11 is press-fitted. press.

1, 2, 3, and 4, a concave portion 50 opening radially outward is formed in the pressed portion 33 of the inner ring portion 11 in the circumferential direction of the inner ring portion 11. As shown in FIGS. It is

In this embodiment, the pressed portion 33 is provided on the bulging portion 15 of the inner ring portion 11 . The pressed portion 33 is provided on the front side (one side in the axial direction) in the fastening direction of the fastening member 9 with respect to the top portion 52 of the bulging portion 15 in the slope portion of the bulging portion 15 .

Specifically, the pressed portion 33 is provided at the diameter changing portion 54 of the bulging portion 15 . The diameter changing portion 54 is provided on the front side in the fastening direction of the fastening member 9 from the top portion 52 of the bulging portion 15 and between the top portion 52 and the pressed portion 33 .

Here, the fastening direction of the fastening member 9 refers to the other axial direction, which is the direction of the arrow 56 in FIG. The front side of the fastening member 9 in the fastening direction is one side in the axial direction. The back side of the fastening member 9 in the fastening direction is the other side in the axial direction.

The diameter changing portion 54 constitutes a part of the bulging portion 15 on one side in the axial direction, and is provided on the slope portion of the bulging portion 15 . The diameter changing portion 54 has a shape in which the outer diameter gradually increases from one side in the axial direction toward the other side.

Further, the top portion 52 of the bulging portion 15 is located in the middle portion of the bulging portion 15 in the axial direction and on the other side of the diameter changing portion 54 in the axial direction. A top portion 52 of the bulging portion 15 is a portion having the largest diameter in the bulging portion 15 .

In this embodiment, the pressed portion 33 is formed in an inclined shape that gradually widens from the front side in the fastening direction of the fastening member 9 toward the back side.

As shown in FIG. 4, the pressed portion 33 is a linear or curved inclined surface convex radially outward in a cross-sectional view.

Further, the pressed portion 33 is formed in an annular shape. The pressed portion 33 extends over the entire circumference of the inner ring portion 11 and contacts the inner circumference of the end portion 5 of the tube 3 . The pressed portion 33 causes the tube 3 to have an enlarged diameter portion 41 by contact with the tube 3 .

At least one recessed portion 50 is provided in the pressed portion 33, and in particular, in the present embodiment, one recessed portion 50 is provided as shown in FIG.

The concave portion 50 is a concave portion that opens radially outward and has a predetermined depth radially inward from the surface of the pressed portion 33 (bulging portion 15). As will be described later, the shape, number, dimensions, etc., of the recessed portions 50 are appropriately changed according to the shape, material, etc., of the inner ring portion 11, and are not limited to those exemplified in the present embodiment. In particular, the axial length of the recess 50 and the radial length (depth) of the recess 50 can be appropriately set so that the inner ring portion 11 maintains a predetermined strength.

In the present embodiment, the concave portion 50 is formed in the above-described pressed portion 33 , and thus is positioned closer to the front side in the fastening direction of the fastening member 9 than the top portion 52 of the bulging portion 15 .

Further, in this embodiment, the recess 50 is formed in an annular groove. In other words, the recessed portion 50 is formed continuously in the circumferential direction of the inner ring portion 11 , that is, over the entire circumference of the pressed portion 33 .

In the pressed portion 33, a recess peripheral portion 33a on one axial side and a recess peripheral portion 33b on the other axial side are formed by forming the recess 50. As shown in FIG. That is, the recessed portion 50 partitions the pressed portion 33 in the axial direction of the recessed portion peripheral portion 33a and the recessed portion peripheral portion 33b.

With such a configuration, it becomes possible to press a portion of the end portion 5 of the tube 3 against the plurality of recess peripheral edge portions 33 a and 33 b formed in the pressed portion 33 .

Therefore, when the joint main body 7 is connected to the tube 3 , the pressing surface 39 pushes a portion of the end portion 5 of the tube 3 along with the tightening of the fastening member 9 to the plurality of recess peripheral edge portions 33 a and 33 a of the pressed portion 33 . It is possible to seal between the inner ring portion 11 (joint main body 7) and the tube 3 by pressing against 33b.

This increases the number of contact points between the inner ring portion 11 and part of the end portion 5 (inner circumference) of the tube 3, so that sealing can be performed at more points (multiple points). Therefore, the safety (reliability) of the seal can be enhanced. As a result, the sealing performance of the pipe joint 1 can be improved.

Further, in this embodiment, since the recess 50 is formed in the annular groove, a part of the end portion 5 of the tube 3 is pressed against each of the plurality of recess peripheral edge portions 33a and 33b linearly extending in the circumferential direction. The gap between the two can be sealed along the entire circumference of the inner ring portion 11 . That is, the recess peripheral edge portions 33a and 33b on both sides in the axial direction of the recess 50 come into contact with the inner peripheral surface of the tube 3 and can be sealed at a plurality of points in the axial direction. Therefore, it is possible to improve the safety (reliability) of the seal.

Further, in the present embodiment, the pressed portion 33 is provided on the slanted portion of the bulging portion 15 that is closer to the front side (one side in the axial direction) than the top portion 52 in the fastening direction of the fastening member 9 . 9 to the joint main body 7, the pressed portion 33 is reliably applied with a pressing force acting in the axial direction and a pressing force acting in the radial direction by the pressing surface 39, thereby securing the fastening member 9. It is possible to increase the certainty of pressing a part of the end portion 5 of the tube 3 against the plurality of recess peripheral edge portions 33a and 33b of the pressed portion 33 of the inner ring portion 11 used.

Further, as shown in FIG. 5, for example, a plurality of concave portions 50 may be formed in the pressed portion 33 . In this case, a plurality of recesses 50 are provided in the pressed portion 33 at predetermined intervals in the axial direction.

In this case, a plurality of recesses 50 are formed, and the number of contact points between the inner peripheral side of the tube 3 and the peripheral edge portions 33a and 33b of the recesses increases, so that it is possible to form more seal points along the axial direction. Become. Therefore, the sealing performance of the pipe joint 1 can be further improved.

In the present embodiment, the joint main body 7 of the present invention has the inner ring portion 11 and the main body portion 13 which are separately formed. As shown, the joint body 95 may have an inner ring portion 91 and a body portion 93 integrally formed with each other.

Further, in the present embodiment, as shown in FIGS. 1, 2, 3, and 4, the top portion 52 of the bulging portion 15 of the inner ring portion 11 is different from the concave portion 50 opening radially outward. Another recess 60 (second recess 60 ) is provided in the circumferential direction of the inner ring portion 11 .

Specifically, at least one concave portion 60 is provided in the top portion 52 of the bulging portion 15 , and one concave portion 60 is provided in this embodiment.

The recessed portion 60 is formed in a recessed state so as to open radially outward on the surface (peripheral surface) of the top portion 52 of the bulging portion 15 and to have a predetermined depth radially inwardly therefrom. ing. The axial length of the concave portion 60 and the radial length (depth) of the concave portion 60 are appropriately set so that the strength of the inner ring portion 11 (bulging portion 15) is maintained at a predetermined value or more. obtain.

The recess 60 is formed as an annular groove in this embodiment. In other words, the recessed portion 60 is formed continuously in the circumferential direction of the inner ring portion 11 , that is, over the entire circumference of the top portion 52 . Note that the recesses 60 may be intermittently provided in the circumferential direction of the inner ring 11 .

At the top portion 52 of the bulging portion 15 , a recess peripheral edge portion 52 a on one side in the axial direction and a recess peripheral edge portion 52 b on the other axial side are formed with the recess 60 interposed therebetween. The recess 60 divides the top 52 into a recess peripheral portion 52a and a recess peripheral portion 52b.

With such a configuration, a part of the inner peripheral surface of the end portion 5 of the tube 3 is in contact with the plurality of recess peripheral edge portions 52a and 52b in the top portion 52 of the inner ring portion 11, so that the inner ring portion 11 and the tube 3 are It is possible to increase the number of sealing points between the end portion 5 and the end portion 5 . That is, more places can be sealed between the two. Therefore, the sealing performance of the pipe joint 1 can be improved.

Obviously, many modifications and variations of the present invention are possible in light of the above teachings. It is therefore to be understood that within the scope of the appended claims, the invention may be practiced otherwise than as described herein.

REFERENCE SIGNS LIST 1 pipe joint 3 tube 7 joint main body 9 fastening member 11 inner ring portion 13 main body portion 15 bulging portion 33 pressed portion 50 concave portion 52 top portion of bulging portion 60 concave portion (second concave portion)
91 inner ring portion 93 body portion 95 joint body

Claims (2)

a joint body including an inner ring portion to be inserted into a tube, and allowing fluid to flow between the tube and the inner ring portion;
A pipe joint comprising a union nut fastened to the joint body in a state surrounding the inner ring portion inserted into the tube,
The inner ring portion is
one end in the axial direction that is the end to be inserted into the tube;
a bulging portion that bulges radially outward from the one axial end toward the opposite end, and expands the diameter of the tube when inserted into the tube;
The bulging portion is
a top with the largest diameter;
a sloped surface extending obliquely with respect to the axial direction of the inner ring portion between the one axial end and the top portion;
at least one first annular groove extending in the slope in the circumferential direction of the inner ring portion and opening radially outward ;
at least one second annular groove extending in the top portion in the circumferential direction of the inner ring portion and opening radially outward;
including
The inner peripheral surface of the union nut is
a pressing surface that is inclined with respect to the axial direction of the union nut and presses the tube against the slope of the bulging portion when the union nut is fastened to the joint body ;
It is spaced in the outer peripheral direction from the enlarged diameter portion of the tube that covers the top of the bulging portion.
A pipe joint characterized by: 2. The pipe fitting of claim 1, wherein each of said at least one first annular groove and said at least one second annular groove has a square edge.

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