JP6442239B2 - Fitting with test connection - Google Patents

Description

  The present invention relates to a joint with a test connection used for an air brake pipe of a vehicle equipped with an air brake such as a truck or a bus.

The test connection is a connection adapter used for connecting a pressure test device for measuring the pressure in the air brake pipe.
The conventional test connection is not integrated with the joint for air brake piping, and the joint for air brake piping and the test connection are attached using R screws or the like (Patent Document 1).
However, since both the test connection and the air brake pipe joint are separate metal parts, the weight is heavy, and there is a problem that the screw is loosened due to vibration caused by running and the member is damaged.

International Publication No. 2007/136274

  SUMMARY OF THE INVENTION An object of the present invention is to provide a joint with a test connection that is lightweight and resistant to vibration during travel of a vehicle equipped with an air brake.

As a result of intensive studies to solve the above problems, the present inventors have completed the present invention. That is, the present invention has the following configuration.
(1) A test connection portion to which a pressure test device is connected and a resin-made air brake pipe joint portion to which the test connection portion is attached are provided. The test connection section has a branched test connection flow path, and the test connection section is press-fitted and attached to a cylindrical portion forming the test connection flow path. An edge-shaped protrusion that bites into the inner peripheral surface is formed on the outer peripheral surface and has a metal housing having a through hole communicating with the test connection flow path, and slides in the through hole in the axial direction of the through hole. A valve body that is movably accommodated, has an air discharge hole that is perforated in the coaxial direction and opens outward, and a communication hole that penetrates from the air discharge hole to the outer peripheral surface; A valve spring disposed in the through hole of the bossing and biasing the valve body so as to protrude outward from the housing, and below the communication hole of the valve body in a state where the valve body protrudes outward from the housing And a packing material sandwiched between the inner peripheral surface of the through-hole and the outer peripheral surface of the valve body for ensuring the airtightness of the air passage in the joint portion for the air brake pipe, and for the pressure test In the state of connection to the test connection part of the device, the valve body is pushed down in the through hole against the urging force of the valve spring, and the communication hole provided in the valve body moves downward from the packing material. A joint with a test connection, wherein the air in the air flow path of the joint portion for the air brake pipe is guided from the communication hole to the pressure test device through the air discharge hole.
(2) The housing of the test connection portion is formed with an edge-shaped protrusion that bites into the inner peripheral surface of the tubular portion of the joint portion for air brake piping, and is connected to the pressure test device. The joint with a test connection according to (1), wherein a screw portion is formed at an upper portion protruding outward from the cylindrical portion.

  According to the present invention, it is light and strong against vibration caused by traveling of an air brake-equipped vehicle, is not easily damaged, and it is possible to prevent troubles such as the test connection portion being loosened due to vibration and coming off.

It is a schematic sectional drawing which shows the coupling with a test connection which concerns on one Embodiment of this invention. It is a schematic sectional drawing which shows the closed state of the test connection part in one Embodiment of this invention. It is a schematic sectional drawing which shows the open state of the test connection part in one Embodiment of this invention.

[One Embodiment of the Present Invention]
A joint 1 with a test connection according to an embodiment of the present invention shown in FIG. 1 is used for connecting brake-related parts of a vehicle equipped with an air brake, and is made of a resin-made air brake pipe joint 100, A test connection unit 200 to which a pressure test device is connected, a device connection adapter 300 to which a brake-related component is connected, and a tube connection adapter unit 400 to which a tube 500 is connected are provided.

  The joint portion 100 for air brake piping has a test connection channel branched from an internal air flow channel, and a cylindrical portion for forming the test connection channel and attaching the test connection unit 200 thereto. 110, a cylindrical portion 120 for attaching the device connection adapter 300, and a cylindrical portion 130 for forming the tube connection adapter portion 400. The test connection portion 200 and the device connection adapter 300 are each cylindrical. The tube connecting adapter 400 is press-fitted into the portions 110 and 120, and is formed in the cylindrical portion 130 and integrated.

(Coupling part 100 for air brake piping)
As shown in FIG. 1, the joint portion 100 for the air brake pipe has a T-shape and includes cylindrical portions 110, 120, and 130 that communicate with each other via a central communication portion 111.
The tubular portion 130 is formed with an inner tubular portion 131.

  The air brake pipe joint 100 is made of resin. Thereby, it can reduce in weight from the coupling provided with the joint parts for metal air brake piping, such as iron and brass, like the past.

(Test connection unit 200)
The test connection unit 200 is in an open state when a pressure test device (not shown) is connected to the joint portion 100 for an air brake pipe, and is closed when the pressure test device is removed. Specifically, as shown in FIG. 2, the test connection unit 200 includes a metal housing 210 having a through hole 211 communicating with the test connection channel in the axial direction, and a through hole 211 in the through hole 211. A valve body 220 housed in an axially slidable manner, a metal valve spring 230 disposed in the through hole 211 and biasing the valve body 220 so as to protrude outward from the housing 210; In the state where the snap ring 240 for supporting the valve spring 230 and the valve body 220 protrude outward from the housing 210, the inner peripheral surface of the through hole 211 and the outer peripheral surface of the valve body 220 are below the communication hole 222 of the valve body 220. And a gasket material 260 (O-ring) for ensuring airtightness of the air flow path and a rubber gasket material 260 for ensuring airtightness.

As shown in FIG. 2, the through-hole 211 includes a small-diameter hole portion 212 for guiding the valve body 220 and a large-diameter hole portion 213 having a larger diameter than the small-diameter hole portion 212. A stepped portion 214 is formed on the inner wall of the through hole 211 as a stopper for restricting the movement of the valve body 220. The packing material 250 is disposed on the stepped portion 214. A fitting groove 215 for fitting the snap ring 240 is formed on the inner peripheral surface of the large diameter hole 213.
A screw portion 216 for screwing the pressure test device is formed on the outer peripheral surface of the portion of the housing 210 to which the pressure test device is connected.
A gasket groove 218 for placing the gasket material 260 is formed on the outer peripheral surface of the press-fitting portion 217 that is press-fitted into the air brake pipe joint portion 100 of the housing 210. Furthermore, an edge-shaped protrusion 270 is formed on the outer peripheral surface of the press-fit portion 217. As a result, when the test connection part 200 is press-fitted into the tubular part 110, the projecting part 270 is bitten into the inner wall of the tubular part 110, and the test connection part 200 and the air brake pipe joint part 100 are integrated. can do.

As shown in FIG. 2, an air discharge hole 221 is formed in the valve body 220. The air discharge hole 221 is drilled in the axial direction from the surface on one end side and opens outward, and has a bottom on the other end side. A communication hole 222 that penetrates from the inner peripheral surface of the air discharge hole 221 to the outer peripheral surface of the valve body 220 is formed on the other end side of the air discharge hole 221. As shown in FIG. 3, the communication hole 222 is formed at the communication hole 222 in the large-diameter hole 213 located on the other end side of the packing material 250 when the valve body 220 is press-fitted in the direction of arrow A. The air discharge hole 221 communicates with the air flow passage in the air brake pipe joint part 100 via the large-diameter hole part 213, and the air brake pipe joint part 100 is thereby exposed. The air inside can be sent to the pressure test equipment.
One end of the valve spring 230 is attached to the outer peripheral surface of the other end side of the valve body 220, and a detent having a larger outer diameter than that of other parts for being brought into contact with the stepped portion 214 by urging by the valve spring 230 A portion 223 is formed.

In a state where no pressure test device is connected to the test connection unit 200, the valve body 220 is biased to one end side by the valve spring 230, and the communication hole 222 is one end side from the packing material 250, as shown in FIG. Therefore, the air in the air flow path of the air brake pipe joint 100 is not led from the communication hole 222 to the air discharge hole 221 (closed state).
On the other hand, as shown in FIG. 3, in a state where a pressure test device (not shown) is connected to the test connection unit 200, one end surface of the valve body 220 comes into contact with the pressure test device, The through hole 211 is pushed down against the biasing force of the valve spring 230, the communication hole 222 provided in the valve body 220 moves downward from the packing material 250, and the air flow path of the joint portion 100 for the air brake pipe 100 The air inside is guided from the communication hole 222 to the pressure test device through the air discharge hole 221 (open state).

Examples of the material constituting the valve body 220 include resin or metal.
An example of the valve spring 230 is a coil spring.

  As an assembling method of the test connection part 200, for example, a packing material 250, a valve body 220 and a valve spring 230 are inserted in this order from the large diameter hole part 213 into the through hole 211, and finally the snap ring is reduced in diameter. 240 may be inserted into the through hole 211 and expanded in the fitting groove 215.

(Device connection adapter 300)
The device connection adapter 300 is for connecting brake-related parts to the air brake pipe joint 100. As shown in FIG. 1, a metal housing 310 and a rubber gasket for ensuring airtightness. It consists of a material 320 and a rubber gasket material 330 for ensuring airtightness.
A through passage 311 is formed inside the housing 310 for allowing air to pass from the brake-related components into the air brake pipe joint 100.
A gasket groove 312 for disposing the gasket material 320 is formed on the outer periphery of the portion of the housing 310 on the side where the brake-related parts are connected. Further, a screw part 313 for screwing with brake-related parts is formed in this part.
A gasket groove 315 for arranging the gasket material 330 is formed on the outer periphery of the press-fitting portion 314 of the housing 310 that is press-fitted into the cylindrical portion 120. Further, an edge-shaped protrusion 340 is formed on the outer periphery of the press-fit portion 314. Thus, when the device connection adapter 300 is press-fitted into the cylindrical portion 120, the projection 340 is caused to bite into the inner wall of the cylindrical portion 120, and the device connection adapter 300 and the air brake piping joint portion 100 are connected. Can be integrated.

(Adapter part 400 for tube connection)
The tube connecting adapter part 400 connects the tube 500 to the joint part 100 for air brake piping. As shown in FIG. 1, a resin-made back ring 410 rotatably mounted, and the back ring 410 A metal cap 420 for fixing the cap 420 in a retaining state, a metal collet 430 disposed so as to be movable back and forth with respect to the cap 420, and a rubber seal member 440 for ensuring airtightness. Prepare.
The back ring 410 is formed with a tapered surface 411 for expanding the diameter of the collet 430 as will be described later. A collet claw portion 431 for holding the tube 500 and an inner peripheral tapered surface 433 are formed on the inner periphery of the collet 430, and an outer peripheral tapered surface 432 is formed on the outer periphery. An edge-shaped protrusion 450 is formed on the outer periphery of the cap 420. As a result, when the cap 420 is press-fitted into the cylindrical portion 130, the protruding portion 450 is caused to bite into the inner wall of the cylindrical portion 130, and the tube connecting adapter portion 400 and the air brake piping joint portion 100 are integrated. Can be made.

  When the internal pressure acts on the inserted tube 500 and the collet 430 is displaced in the removal direction of the tube 500 with respect to the cap 420, the diameter of the collet 430 decreases along the outer peripheral tapered surface 432. Thus, as shown in FIG. 1, the collet claw portion 431 is stuck in the tube 500 and firmly holds the tube 500. On the other hand, if the collet 430 is displaced with respect to the cap 420 in the direction opposite to the direction in which the tube 500 is pulled out (the direction in which the tube 500 is inserted) using a dedicated tool, the taper surface 411 of the buckling 410 and the inner peripheral taper of the collet 430. When the collet 430 is expanded in diameter by contact with the surface 433, the collet claw portion 431 stuck in the tube 500 is detached, and the tube 500 is opened.

〔how to use〕
As a method for using the joint 1 with a test connection, for example, an air tank is connected to the device connection adapter 300, and a tube 500 is connected to the tube connection adapter section 400. No pressure test equipment is connected to the section 200, and the air that has exited the air tank is sent to the air tank, air valve, air actuator, and the like through the tube 500 via the joint 1 with test connection. At this time, the joint 1 with a test connection is lighter than a conventional joint, and thus is more resistant to vibration caused by traveling of a vehicle equipped with an air brake. On the other hand, at the time of a test for performing a pressure test (inspection), an air brake pipe between an air tank and an air tank, an air valve, an air actuator, etc. can be easily and quickly simply by connecting a pressure test device to the test connection unit 200. Can be measured.

  In the joint 1 with a test connection, as shown in FIG. 1, the sharp and hard edge-shaped protrusions 270, 340, and 450 formed on the test connection unit 200, the device connection adapter 300, and the tube connection adapter unit 400 are provided. It is possible to bite into the inner walls of the cylindrical portions 110, 120, and 130, and it is possible to easily and firmly integrate them.

In the joint 1 with a test connection, the T-shaped air brake pipe joint portion 100 is used. However, the present invention is not limited to this. For example, an F-shaped air brake pipe joint portion is used. Also good.
In the joint 1 with a test connection, the test connection part 200 in which the valve spring 230 is supported by the snap ring 240 is used. However, the present invention is not limited to this. For example, instead of the snap ring, the other end of the housing is connected. A test connection part in which a caulking part (not shown) is formed by plastic deformation on the center point side of the large-diameter hole part, and a valve spring is supported on the caulking part may be used.
In the joint 1 with a test connection, it is a tube connecting adapter part 400 using a collet 430 in which a collet claw part 431 is formed, but the present invention is not limited to this, and if it can be integrated with an air brake piping joint part, For example, a lock ring type tube connection adapter described in Japanese Patent No. 4300409 and Japanese Patent No. 4468145 may be used.

DESCRIPTION OF SYMBOLS 1 Joint with test connection 100 Joint part for air brake piping 110 Cylindrical part 200 Test connection part 210 Housing 211 Through-hole 220 Valve body 221 Air discharge hole 222 Communication hole 230 Valve spring 250 Packing material 270 Protrusion part 300 Equipment connection adapter 400 Adapter for tube connection 500 Tube

Claims (2)

A test connection part to which a device for pressure test is connected, and a resin air brake pipe joint part to which the test connection part is attached,
The joint part for air brake piping has a test connection channel branched from the internal air channel, and the test connection unit is press-fitted and attached to a cylindrical part forming the test connection channel. ,
The test connection unit
A metal housing having a through hole communicating with the flow path for test connection, an edge-shaped protrusion that bites into the inner peripheral surface of the cylindrical portion at the time of press-fitting, and
A valve body that is accommodated in the through hole so as to be slidable in the axial direction of the through hole, has an air discharge hole that is drilled in the coaxial direction and opens outward, and a communication hole that extends from the air discharge hole to the outer peripheral surface. When,
A valve spring disposed in the through hole of the housing and biasing the valve body so as to protrude outward from the housing;
In the state where the valve body protrudes outward from the housing, the air brake pipe joint is sandwiched between the inner peripheral surface of the through hole and the outer peripheral surface of the valve body below the communication hole of the valve body. With packing material to ensure the airtightness of the air flow path,
In the state of connection to the test connection portion of the pressure test device, the valve body is pushed down in the through hole against the urging force of the valve spring, and the communication hole provided in the valve body is made of the packing material. A joint with a test connection, which moves downward and guides the air in the air flow path of the joint portion for the air brake pipe to the pressure test device through the air discharge hole from the communication hole.   The housing of the test connection part is formed with an edge-shaped protrusion that bites into the inner peripheral surface of the cylindrical part of the joint part for air brake piping, and a screw part for connecting to the pressure test device. The joint with a test connection according to claim 1, wherein the joint is formed at an upper portion protruding outward from the cylindrical portion.