JPH08270865A - Pipe fitting - Google Patents

Abstract

PURPOSE: To prevent the flow of fluid from being disturbed by forming a cylindrical body extending in the axial direction of a body at the rear end of a valve-element and arranging a spring to act a spring force against the valve element toward a valve seat inside the cylindrical body so that the spring is covered with the cylindrical body and not exposed directly to the inside of a plug body and a socket body. CONSTITUTION: A cylinder 25 is located behind a valve element structural body 23 on the axis of an inner hole 11 of a plug body 3, and formed integrally. Also the rear end of the cylinder 25 is open in order to insert a compressive spring 27. Then the compressive spring 27 is stored inside the cylinder 25 and a support hole 26a of a valve element support 26, and not exposed to the outside. By this, the compressive spring 27 used for a valve 4 is not exposed to the inner hole 11 of the plug body 3, and the cylinder 25 in which the compressive spring 27 is stored and the valve element support body 26 are exposed. Thus, because the compressive spring 27 is not present in the inner hole 11 of the plug body 3, fluid can flow through the inner hole 11 without being disturbed by the compressive coil spring 27.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pipe joint consisting of a plug and a socket.

[0002]

2. Description of the Related Art As a pipe joint used in a pipe for flowing a liquid or a gas, a cylindrical plug body having both ends opened and a valve seat formed at one end opening, and a plug body provided inside the plug body A plug having a valve that opens and closes the valve seat, and a plug receiving portion into which the front end of the plug body is removably inserted is formed at the front end, which has a tubular shape with both ends open. Some sockets are provided with a socket body having a valve seat formed at the end and a socket provided inside the socket body and having a valve for opening and closing the socket body.

Conventionally, the valve provided in this pipe joint has the structure described below. Here, a valve provided in the plug will be described as an example. A poppet-shaped valve body that is movably supported in the body axial direction inside the plug body, has a portion that comes into contact with and separates from the valve seat, and that protrudes outward from the valve seat when it comes into contact with the valve seat, and the rear end of this valve body. A rod extending in the axial direction of the body, a support member provided inside the plug body for movably supporting the rod of the valve body, and arranged inside the plug body along the axial direction of the body surrounding the rod of the valve body. The compression coil spring has a front end that contacts the valve body and a rear end that is supported by a support member to exert a spring force on the valve body in the valve closing direction. The socket valve has the same structure.

When the plug and the socket are not connected, the valve body of the valve is pushed by the spring and comes into contact with the valve seat of the plug body, thereby cutting off the fluid flow inside the plug body. At this time, the front end of the valve element projects outward from the valve seat of the plug body.

When connecting a valve and a socket,
Apply the front end of the valve element protruding from the front end opening of the plug body and the front end of the valve element protruding from the front end opening of the socket body,
Insert the front end of the plug body into the plug receiving part of the socket body. Then, the valve elements are pushed toward the rear side against each other against the spring force, and the valve elements are separated from the valve seats of the plug body and the socket body. As a result, the insides of the plug body and the socket body are opened so that the plug body and the socket body communicate with each other and the fluid can flow.

[0006]

By the way, in the plug and the socket provided with the valve, it is required that the fluid flows in the inside of the plug main body and the socket main body as stably as possible to reduce energy loss.

However, in the above-mentioned conventional plug and socket, there is a limit to the stable flow of the fluid inside the plug body and the socket body, and energy loss of the fluid flowing inside the plug body and the socket body occurs. It was difficult to keep it low.

The present invention has been made based on the above circumstances, and the fluid flows as stably as possible inside the plug main body and the socket main body, and the energy loss of the fluid flowing inside the plug main body and the socket main body is reduced. An object is to provide a pipe joint that can be suppressed.

[0009]

In order to achieve the above object, a pipe joint of the present invention is provided with a tubular plug body having both ends opened and a valve seat formed at one end opening, and a plug body provided inside the plug body. A plug having a valve that opens and closes the valve seat of the plug body, and a plug receiving portion into which the front end portion of the plug body is removably inserted is formed at the front end portion, which has a tubular shape with both ends open. A socket body having a valve seat formed at an inner end of a receiving portion; and a socket having a valve for opening and closing the socket body provided inside the socket body, wherein at least one of the plug valve and the socket valve Has a portion provided inside the main body so as to be movable in the axial direction thereof so as to come into contact with and separate from the valve seat and project outwardly from the valve seat when contacting the valve seat. A valve body, a tubular body formed at the rear end of the valve body and extending in the axial direction of the main body, a support hole fixedly provided inside the main body and through which the tubular body is movably inserted and supported, and an outer peripheral portion. A valve body support that allows fluid to flow through, and a spring that is arranged inside the cylindrical body and the support hole of the valve body support and applies a spring force to the valve body toward the valve seat. It is characterized by having.

[0010]

According to the above construction, the cylindrical body extending in the axial direction of the main body is formed at the rear end of the valve body, and the spring for exerting the spring force on the valve body toward the valve seat is formed inside the cylindrical body. It is arranged.
Therefore, the spring that applies a spring force to the valve body toward the valve seat is not covered with the cylindrical body and is not directly exposed inside the plug body and the socket body. Accordingly, the fluid flowing inside the plug body and the socket body can flow without being disturbed by the spring.

That is, one of the disturbing elements through which the fluid flows is removed from the inside of the plug body and the socket body,
As a result, the degree of stable flow of the fluid inside the lug body and the socket body is improved, and a pipe joint capable of suppressing the energy loss of the fluid flowing inside the plug body and the socket body to be lower than the conventional one is obtained. be able to.

[0012]

Embodiments of the present invention will be described with reference to the drawings. A pipe joint according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4. FIG. 1 shows a state in which a plug and a socket are connected in this pipe joint, and FIG. 2 shows the plug,
FIG. 3 shows a socket.

In the figure, 1 is a plug and 2 is a socket. The plug 1 has a cylindrical plug body 3 with both ends open.
And a valve 4 provided inside the plug body 3. The socket 2 has a cylindrical socket body 5 with both ends open, and a valve 6 provided inside the socket body 5.

The plug 1 will be described with reference to FIGS. 1 and 2. The plug body 3 has a configuration described below. The plug body 3 has an inner hole 11 through which a fluid flows, and a valve seat 12 is provided at a front end opening (left end in the drawing) of the inner hole 11.
Are formed. A large diameter portion 13 is formed in the inner hole 11 from the valve seat 12 toward the rear end along the axial direction for a predetermined distance. The large-diameter portion 13 has a larger diameter than the other portions of the inner hole 11, and both ends of the large-diameter portion 13 have a diameter along the length direction of the large-diameter portion 13 toward the ends. The taper portion 13a is formed so as to gradually decrease. Further, an engagement groove 14 is formed in the outer peripheral portion of the plug body 3 along the circumferential direction at a position separated from the front end (the left end in the drawing) by a predetermined distance.

The valve 4 has the following construction.
FIG. 4 shows a unit of the valve 4. 1 to 4, reference numeral 21 denotes a valve body, and the valve body 21 is a valve body structure 22.
And the valve body structure 23 are connected to each other. The valve body structure 22 has a tapered portion 2 whose diameter decreases toward the front end.
2a and a screw shaft 22b at the rear. The valve body assembly 23 has a taper portion 23a whose diameter increases toward the front end and has a screw hole 23b.

A packing 24 is attached to the front end of the valve body assembly 23. Valve body structure 22 and valve body structure 2
3, a screw shaft 22b is screwed into a screw hole 23b of a valve body assembly 23 and coupled to form a valve body 21 having an abacus spherical shape.

As shown in FIG. 2, the valve body 21 is movable along the axial direction of the plug body 3 in the large diameter portion 13 of the inner hole 11 of the plug body 3, that is, the packing 24.
Is movably provided in a direction in which the plug body 3 approaches and separates from the valve seat 12. Packing 24 is plug body 3
When contacting the valve seat 12 of the front end opening of the plug body 23, the tapered portion 23a of the valve body structure 23 contacts the valve seat 12 of the plug body 3 and projects outward from the front end opening of the plug body 3.

Reference numeral 25 is a cylinder which is an example of a cylindrical body, and the cylinder 25 is integrally formed at the rear portion of the valve body structure 23 on the axis of the inner hole 11 of the plug body 3. This cylinder 25
The rear end is opened to insert a spring 27 described later. Reference numeral 26 denotes a valve body support, which has a circular support hole 26a formed at the center thereof on the axis of the plug body 3. The front end of the support hole 26a is open for inserting the spring 27, and the rear end has a small diameter for receiving the spring 27.

Blades 26b extending in the axial direction of the plug body 3 are respectively formed at a plurality of positions on the outer peripheral portion of the support hole 27 at equal intervals in the circumferential direction, and between the blades 26b. A gap for fluid flow extending in the axial direction of the plug body 3 is formed. The outer ends of the blades 26 are located on a circle having a diameter substantially the same as the diameter of the inner hole 11 of the plug body 3.

The valve body support 26 is shown in FIGS.
As shown in FIG.
The blades 26 are arranged at a position rearward of 3, and the outer peripheral edges of the blades 26 are in contact with the inner peripheral surface of the inner hole 11. A stopper 28 attached to the inner hole 11 of the plug body 3 presses each blade 26 of the valve body support 26. Thereby, the valve body support 26 is fixed to the inner hole 11 of the plug body 3.

Here, the cylinder 2 formed in the valve body structure 23
Reference numeral 5 is movably inserted from the rear end into the inside of the support hole 26a of the valve body support member 26 via the front end thereof. The cylinder 25 has an outer diameter that allows it to be inserted into the support hole 26a without rattling, and the cylinder 25 is inserted into the support hole 26a by a length that allows the valve body 21 to be stably supported. The cylinder 25 and the support hole 26a have an inner diameter large enough to insert a compression coil spring 27, which will be described later. As a result, the valve body 21 is movably supported by the valve body support body 26.

In the drawing, 27 is a compression coil spring, which is arranged inside the supporting hole 26a of the combined cylinder 25 and valve body support 26 along the axial direction of the plug body 3, and has one end thereof a valve body structure 23. And the other end is in contact with the rear end of the support hole 26a. The compression coil spring 27 includes the valve body structure 2
A spring force is applied to 3 in a direction in which the tapered portion 22a of the valve body structure 22 contacts the valve seat 12 of the plug body 3. As a result, the taper portion 22a of the valve body structure 22 of the valve body 21 and the packing 24 come into contact with the valve seat 12 of the plug body 3.

As a result, the compression coil spring 27 is housed inside the cylinder 25 and the support hole 26a of the valve body support 26 and is not exposed to the outside. Therefore, the plug body 3
The compression coil spring 27 used for the valve 4 is not exposed in the inner hole 11 of the cylinder 2 that accommodates the compression coil spring 27.
5 and the valve body support 26 are exposed.

The socket 2 will be described with reference to FIGS. 1 and 3. The socket body 5 has a configuration described below. As shown in FIG. 3, the socket body 11 has a cylindrical shape with both ends open, and has an inner hole 31 through which a fluid flows. A plug receiving portion 32 into which the plug body 3 is inserted is formed at a front end portion (right end portion in the drawing) of the socket body 5. The plug receiving portion 32 is formed with ball holes 33 penetrating inward and outward at a plurality of positions spaced apart in the circumferential direction. The ball holes 33 are tapered so that the inside has a small diameter, and the balls 34 are inserted into each of them. It is supported. The balls 34 supported by the ball holes 33 project inward from the ball holes 33.

An operating ring 35 is movably fitted on the outer peripheral side of the plug receiving portion 32, and the operating ring 35 is always attached to the front end of the socket body 5 by a compression coil spring 36 fitted in the plug receiving portion 32. The ball 34 is pushed in the direction side to push the ball 34 from the outside. A valve seat 37 is formed at the boundary between the plug receiving portion 32 and the other portion of the inner hole 31 of the socket body 5.

A large-diameter portion 38 is formed in the inner hole 31 from the valve seat 37 toward the rear end along the axial direction for a predetermined distance. The large-diameter portion 38 has a larger diameter than the other portions of the inner hole 31, and the large-diameter portion 3 is provided at both ends of the large-diameter portion 38.
8 has a tapered portion 38a whose diameter gradually decreases toward both ends along the length direction.

In the figure, 39 is a stopper for suppressing the movement of the operating ring 35, and 40 is an O-ring provided on the inner peripheral surface of the plug receiving portion 32.

The valve 6 will be described. The valve 6 is shown in FIG.
The plug 4 is formed of the same parts as the valve 4 of the plug 1 described above, and the arrangement of the parts in the socket body 5 will be described. The valve 6 is arranged on the rear end side of the plug receiving portion 32 in the inner hole 32 of the socket body 5.
The valve body 21 is located in the large diameter portion 38 and is provided so as to be movable toward and away from the valve seat 37. The valve body support 26 is arranged on the rear end side of the plug receiving portion 32 in the inner hole 32, and each blade 26 is in contact with the inner hole 32 and is pressed by the stopper 41. The compression coil spring 27 is arranged along the axial direction of the plug body 3 inside the cylinder 25 of the valve body assembly 23 and the support hole 26 a of the valve body support body 26, and the taper of the valve body assembly 22 with respect to the valve body assembly 23. Part 22
A spring force is applied in the direction in which a contacts the valve seat 12 of the plug body 3. As a result, the different taper portion 22a of the valve body structure 22 of the valve body 21 and the packing 24 are attached to the valve seat 3 of the plug body 3.
It is in contact with 7.

The compression coil spring 27 is housed inside the cylinder 25 and the support hole 26a of the valve body support 26 and is not exposed to the outside. Therefore, the inner hole 11 of the plug body 3
The compression coil spring 27 used for the valve 4 is not exposed, and the cylinder 25 accommodating the compression coil spring 27 and the valve body support 26 are exposed.

In this embodiment, a threaded portion 15 is formed at the rear end of the plug body 3 and a pipe (not shown) is connected thereto. A connector 7 is attached to the rear end of the socket body 5, and a pipe (not shown) is connected to the connector 7.

In the pipe joint thus constructed, when the valve 1 and the socket 2 are not connected, the plug 1
Then, the valve body 21 of the valve 4 is pushed by the coil spring 27 and comes into contact with the valve seat 12 of the plug body 3 to close the front end opening of the inner hole 11 of the plug body 3. At this time, the front end of the valve body 11, that is, the taper portion 22a of the valve body structure 22 projects outward from the valve seat 12 of the plug body 3.

In the socket 2, the valve body 21 of the valve 6 is pushed by the coil spring 27 and comes into contact with the valve seat 27 of the socket body 5 to close the front end opening of the inner hole 31 of the socket body 5.
At this time, the front end of the valve body 11, that is, the taper portion 22 a of the valve body structure 22 projects outward from the valve seat 27 of the socket body 5.

When connecting the valve 1 and the socket 2, the operation ring 35 provided on the socket 2 is pulled toward the rear end side of the socket body 5 against the spring force of the coil spring 36. The balls 34 supported by the respective ball holes 33 are set in a free state. Then, as shown in FIG. 1, the front end portion of the valve body 21 protruding from the front end opening of the plug body 3 and the front end portion of the valve body 21 protruding from the front end opening of the socket body 5 are brought into contact with each other.

Further, the front end portion of the plug body 1 is inserted into the plug receiving portion 32 of the socket body 5. The valve body 12 of the plug body 1 is stopped by contacting the valve seat 27 of the socket body 5. Then, each ball hole 33 of the socket body 5
The ball 34 supported by the engaging member engages with the engaging groove 14 formed in the plug body 1. Here, the operating ring 35 is pushed by the coil spring 6 and moved toward the front end of the socket body 5, and the operating ring 35 pushes the balls 34 supported by the ball holes 33 of the socket body 5 from the outside.
As a result, the plug body 1 is fixed to the socket body 5.

Then, the valve body 21 of the plug body 3 and the valve body 21 of the socket body 5 are pressed against each other by the spring force of the coil springs 27, 27 of the valves 4, 6. For this reason,
The valve body 21 of the plug body 3 is retracted from the large diameter portion 13 of the plug body 3 against the spring force of the coil spring 27 and separated from the valve seat 12, and the front end opening of the plug body 3 is opened. At the same time, the valve body 21 of the socket body 5 resists the spring force of the coil spring 27 and retracts the large-diameter portion 38 of the socket body 5 to move the valve seat 3
7, the front end opening of the socket body 5 is opened.

Then, for example, the fluid flows from the rear end of the plug body 3 through the inner hole 11. The fluid 11 flows toward the front end of the plug body 3 through the gap between the blades 26b of the valve body support 26 of the valve 4. Here, the compression coil spring 27 of the valve 4 is not exposed in the inner hole 11 of the plug body 3. That is, since the compression coil spring 27, which is one of the elements that disturbs the flow of the fluid, does not exist in the inner hole 11 of the plug body 3, the fluid is not disturbed by the compression coil spring 27 in the inner hole 11. Can flow

Further, the fluid flows from the valve seat 12 of the plug body 3 into the inner hole 31 via the valve seat 27 of the socket body 5. The fluid 11 flows toward the rear end of the plug body 3 through the gap between the blades 26b of the valve body support 26 of the valve 4. Here, the compression coil spring 27 of the valve 6 is not exposed in the inner hole 31 of the socket body 5. That is, since the compression coil spring 27, which is one of the elements that disturbs the flow of the fluid, does not exist in the inner hole 31 of the socket body 5, the fluid is not disturbed by the compression coil spring 27 in the inner hole 31. Flowing.

Further, since the large diameter portion 13 of the plug body has the tapered portions 13a at both ends, the large diameter portion 13 is formed.
And the inner hole 11 and between the large diameter portion 13 and the inner hole 11 are prevented from abruptly changing in cross-sectional area, and the fluid stably flows in the large diameter portion 13. Since the large diameter portion 38 of the socket body 5 is formed with the tapered portions 13a at both ends, the large diameter portion 13
Between the inner diameter 31 and the inner hole 31 and between the large diameter portion 38 and the inner hole 11 are prevented from abruptly changing in cross-sectional area, and the fluid flows stably in the large diameter portion 13.

The present invention is not limited to the above-described embodiment, but can be modified in various ways. For example, in the above-described embodiment, the valve having the configuration disclosed in the claims is
Although it is provided in both the plug and the socket, the present invention is not limited to this, and the valve having the above configuration may be provided in at least one of the plug and the socket.

Further, in the valve, as shown in FIG. 5, the coil spring 43 may be supported by a bellows 42 made of, for example, a fluororesin. In this case, the bellows 42 can protect the coil spring 43.

[0041]

As described above, according to the pipe joint of the present invention, the valve provided on at least one of the plug and the socket forms a cylindrical body extending in the axial direction of the main body at the rear end of the valve body. A spring that applies a spring force to the valve body toward the valve seat is arranged inside the. Therefore, in the valve, the spring that exerts a spring force on the valve body toward the valve seat is not covered with the cylindrical body and is not directly exposed inside the plug body and the socket body. Accordingly, the fluid flowing inside the plug body and the socket body can flow without being disturbed by the spring.

That is, one of the elements that disturbs the flow of fluid is removed from the inside of the plug body and the socket body,
As a result, the degree of stable flow of the fluid inside the lug body and the socket body is improved, and a pipe joint capable of suppressing the energy loss of the fluid flowing inside the plug body and the socket body to be lower than the conventional one is obtained. be able to.

[Brief description of drawings]

FIG. 1 is a sectional view showing a pipe joint which is an embodiment of the present invention.

FIG. 2 is a view showing a plug in the pipe joint of the embodiment.

FIG. 3 is a sectional view showing a socket in the pipe joint of the embodiment.

FIG. 4 is a view showing a valve used for the pipe joint of the embodiment.

FIG. 5 is a diagram showing another example of a valve.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Plug, 2 ... Socket, 3 ... Plug main body, 4 ... Valve, 5 ... Socket main body, 6 ... Valve, 11 ... Internal hole, 12 ... Valve seat, 21 ... Valve body, 25 ... Cylinder, 26 ... Valve body support Body, 27 ... Compression coil spring, 31 ... Inner hole, 32 ... Plug receiving part, 37 ... Valve seat.

Claims (1)

[Claims] 1. A plug body having a tubular shape having both ends opened and a valve seat formed at one end opening, a plug having a valve for opening and closing the valve seat of the plug body provided inside the plug body, and both ends A socket body having an open tubular shape and a front end portion having a plug receiving portion into which the front end portion of the plug body is removably inserted and a valve seat formed at an inner end of the plug receiving portion, and the socket body And a socket having a valve for opening and closing a socket body provided inside, wherein at least one of the valve of the plug and the valve of the socket is configured such that the valve is movable inside the body in an axial direction thereof. A valve body provided with a portion that is in contact with and separated from the valve seat and that projects to the outside of the valve seat when it contacts the valve seat, and a body axial direction formed at the rear end of the valve body. And a valve body support body which has a support hole fixedly provided inside the main body and through which the cylinder body is movably inserted and supported and which allows fluid to flow in an outer peripheral portion; A pipe joint having a body and a spring that is disposed inside the valve body support and applies a spring force to the valve body toward the valve seat.