KR930001048Y1 - Pipe fittings - Google Patents

Abstract

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Description

Pipe fittings

1 and 2 show an embodiment of the pipe joint of the present invention,

1 is a partial cross-sectional side view showing a state of engagement with the valve.

2 is a partial cross-sectional side view of the copper cutout.

3 is a side cross-sectional view showing the same example.

* Explanation of symbols for main parts of the drawings

1: adapter 5: lock ball fastening ring

6: stop ring 7: sleeve

9: spring 10: sliding cylinder

11: tube fitting main body 12: spring

13: rear of the sleeve 14: lock ball

15: sealing ring 16: chuck

16a: female thread 17: operating ring

18: spring

The present invention relates to a pipe fitting used for connecting to a freon gas filling work (work = workpiece) incorporating a valve core.

The conventional wark (freon gas filling valve) formed in the freon gas container (Bomb) is, for example, as shown in FIG. 3, and when the operation pin 23 is pressed, the built-in valve core 21 is opened. have. In the Freon gas filling valve 20, a male screw was formed in the outer peripheral surface, and the male screw was screwed into the feed shaft tube of the Freon gas, and in the fitting process, the valve was opened and the plane gas was injected. .

Since pressurized freon gas is extremely low temperature, it is well known that it is dangerous if leaked accidentally during gas supply. However, when the gas container is connected in the gas supply, the valve is opened in the middle of screwing the supply pipe of the Freon gas as described above, so it is a dangerous problem by far and this is a serious problem.

The present invention is to solve this problem, and to provide a pipe fitting to be equipped with a Wank treatment.

The present invention provides a sliding cylinder sealing the outer circumferential surface in the fluid passage direction so as to be slidable in the fluid passage of the pipe fitting main cylinder, and is sandwiched between the sliding cylinder and the pipe fitting main cylinder. The locking ring formed in the lock ball is formed to be slidable in the same direction as the sliding cylinder, and the sliding cylinder and the locking ring are elastically supported in the walk connection direction with a spring, and the outer periphery of the front end of the pipe fitting main cylinder And a plurality of wark chucks that are elastically supported by a spring in the same direction as the ring along the outer circumferential surface of the migration cylinder and pressed against the outer circumference with a sleeve fitted to be movable, in the direction of salvation core. And a ball holding part for pressing the lock ball in a centripetal direction opposite to the ring, the valve having a valve and the valve. Forming a sealing ring for sealing the vicinity of the front part, at the same time, the pressing surface of the operation pin formed on the front part of the wark is the front part, and the valve operation ring having the communication hole inside and outside the fluid is connected by the spring In order to solve the problem by forming a female screw of the pitch and the male thread formed on the outer peripheral surface of the valve in the inner surface portion of the operation key again.

The sleeve is pulled backward, the plural chucks are swung in the centrifugal direction, and the female screw formed on the inner surface is opened. If a valve for filling a freon gas (hereinafter referred to as a "wark") is inserted therein, the front part of the wark presses the operation ring, and then the sealing ring formed on the front part of the sliding lamp and the seat are installed. At this time, the lock ball locking ring and the wark operation ring hole enters the sliding passage, but the spring directly acting on the operation ring is weak, so the operation ring does not enter the operation pin of the wark. If the sliding cylinder is engaged with the lock ball locking ring to resist the higher spring force than the above, the pushing force in the centripetal direction to the lock portion is lowered after a while, so the ball has the front slope of the ring and the rear of the sliding cylinder. Falling into a recess formed by the inclined surface portion, the sleeve is advanced by the pressing force of the spring and the lock portion is restrained in the outer circumferential direction by the concave portion of the inner surface of the sleeve. As a result, the sliding cylinder and the lock ball locking ring maintain the retracted position, but on the other side, the spring force is gradually increased, and after a while, the operation pin on the work side is pressed to the front of the operation ring to open the valve. When the sleeve is advanced, the convex portion of the inner circumferential surface of the sleeve is out of alignment with the concave portion of the rear end of the outer surface of the chuck, and is engaged with the concave portion of the intermediate portion. Therefore, each female thread formed in the inner surface of the chuck is a pair of virtual light-headed female threads, which is completely engaged with the male thread of the inserted wark, and joins the pipe fitting and the wark.

In disassembling the thus-worked wark, the sleeve is retracted against the spring, and the recessed portion of the inner surface of the sleeve is fitted. By this operation, the free end moves in the centrifugal direction, and the engagement with the female thread of the wark is released. In addition, since the lock ball is pressed by the recess of the sleeve at this time, the ball is extruded in the centrifugal direction by the elastic force of the lock ball locking ring, and extruded into the woking by the elastic force of the sliding cylinder, and The released operation pin returns to its original state and closes the valve.

Hereinafter, embodiments will be described in detail with reference to the drawings.

In the figure, 11 is a tube fitting main cylinder which screwed the adapter 11 in the back part, and the outer periphery of this tube fitting main cylinder 11 is a shot in the front direction through the sleeve rear part 13 by the spring 12. The sleeve 7 is fitted with a sliding material in the axial direction, and the sleeve 7 and the rear portion 13 are screwed together 13a. The inner circumferential surface of the sleeve rear portion 13 is provided with a plurality of engaging surfaces 13b abutting against the stop ring 6 provided on the pipe fitting main cylinder 11 at a forward position, and the pipe fitting main cylinder 11. The inside of the tapered hole 11b having a small diameter in the center of the gap abuts against the lock ball 14 which is movable in the direction of the center of gravity, and forms a concave portion 13c that presses this in the center of gravity and the rear of the sleeve. At the rear end of 13, a groove 13d to be engaged at the time of retreat is formed in the sleeve 3 for locking the sleeve embedded in the pipe fitting main body 11. 16 is a chuck having a female screw 16a to be screwed into the male screw 22 of the wark 20 on the inner surface of the free end side, and the outer surface of the chuck 16 is formed on the inner circumferential surface of the sleeve 7. The convex portions 16b and 16c to be fitted to 7a are formed in the middle portion and the rear end portion. Moreover, the chuck | zipper 16 is separately mounted in the salvation core direction by the oscillation material in the groove | channel 11c formed in the space | interval at equal intervals in the outer peripheral surface of the front-end | tip part of the pipe fitting main cylinder 11, respectively. Further, the front outer circumference of the pipe fitting cylinder 11 is mounted with a rocking material in the centrifugal direction. Moreover, the front outer periphery of the pipe joint main body 11 is formed with the concave part 11a toward the centrifugal direction, The said chuck 16 is between the concave parts 16b and 16c formed in the middle part and the rear part of the outer surface. 16 d of groove | channels which were located in the inner surface and formed in the inner surface are engaged with the groove | channel part 11a, and are supported so that rocking is possible.

In addition, in the flow passage formed in the shaft portion of the pipe fitting main cylinder 11, the outer circumferential surface is sealed by the 0 ring 2, and the sliding cylinder 10 elastically supported in the valve insertion direction by the spring 9 is the fluid passage. It is fitted to slide in the direction. Moreover, the front cylinder 19 of the sliding cylinder 10 has the sealing ring 15 which sealed the vicinity of the front front part of the warck 20. As shown in FIG.

5 is a ball locking ring for locking when formed of a sliding material in the same direction as the inner cylinder 19 of the sliding cylinder in a state sandwiched between the tube fitting main cylinder 11 and the sliding cylinder 10, the spring ( It is elastically supported forward by the resilience force of 12 and has a forward taper portion 5a for supporting the lock ball 14, and is opposed to the locking ring 5 to support the lock ball 14. The rearward taper portion 19a is formed in the outer peripheral surface portion of the sliding cylinder front cylinder 19. Moreover, in the inside of the front cylinder 19 of the sliding cylinder 10, the operation ring 17 which is elastically supported by the weak spring 18 compared with the said spring 9 in the front direction, and has a fluid passage 17a in the center part. ) Is fitted with sliding material in the same direction as the locking ring 5 and the sliding cylinder 10.

In addition, the wark 20 has a valve core 21 built therein, and has an operation pin 23 for opening and closing a valve, which is a main part of the valve core 21, on its front face, and a male screw 22 on its outer circumference. Freon gas filling valve assembly.

Next, the operation at the time of attaching and detaching the wark 20 will be described. In FIG. 2 showing the state in which the wark 20 is detached, the sleeve 7 retreats, and the inner part of the inner circumference thereof. (7a) abuts against the concave portion 16c of the rear end of the outer surface of the chuck 16, and swings the chuck 16 with the concave portion 11a of the pipe fitting main cylinder 11 as a support point. ) Is inclined with the inner diameter of the tip portion enlarged than in the case of FIG.

In this state, when the wark 20 is inserted from the male screw 22 side on the right side in FIG. 2, the sealing ring 150 and the sliding cylinder front cylinder l9 are inserted through the sliding cylinder 10 at the tip end thereof. By pushing against the spring 9, the lock ball locking ring 5 is also pushed in against the spring 4. In this state, the valve does not open, but when the valve is inserted again, the operation ring 17 is strongly inserted against the spring 18 in which the operation pin 23 of the valve core 21 is blocked, so that the spring force of the spring 18 is increased. The operation ring 17 which has become strong and has been strongly received by the spring force of the spring 18 is opened by pressing the valve.

When the lock ball locking ring 5 is pushed in, the ball pressure on the lower side with respect to the lock ball 14 is eliminated, so that the ball 14 is connected to the tube fitting hole by the spring force of the sleeve 13 by the spring 12. The sleeve rear portion 13 is advanced by forcibly entering the taper hole 11b of the main cylinder 11, and the lock ball 14 is lowered by the recess 13c of the rear portion 13. At the same time, the rear portion 13 and the integral sleeve 7 are also advanced to the position shown in FIG. 1, and the recessed portion 7a of the inner circumferential surface is engaged with the recessed portion 16c of the chuck 16 and the recessed portion 16b. By swinging the chuck 16 in an inclined state, the female screw 16a is engaged with the male screw 22 of the valve 20 so that the valve 20 does not come off. At the same time, the lock ball 14 falls into a recess formed by the tapered portion 19a and the ring front tapered portion 5a of the sliding cylinder front cylinder 19, and the ball 14 is the sliding cylinder front cylinder 19. It is fitted between the lock ball locking ring 5 and the rear portion 13 of the sleeve 7, and the sliding cylinder front cylinder 19 is fixed in the state under the spring force of the springs 4 and 9.

Next, in order to detach the work 20 in the engaged state, when the sleeve 7 is retracted against the spring 12, the recessed portion 7a of the inner surface of the sleeve 7 moves to move the jaw of the chuck 16. As the engagement with the portion 16b is released and the engagement with the recessed portion 16c is performed, the chuck 16 is inclined to the support point at the recessed portion 11a of the pipe fitting main cylinder 11 to be opened outward, and the male screw ( 22) and the female screw 16a are released, and the back portion 13c of the rear portion 13 of the sleeve releases the lock ball 14, thereby locking the lock ball by the spring 4. The ring 5 is pushed, the lock ball 14 is pushed down as shown in FIG. 2, and the front cylinder 19, such as sliding, is advanced, so that the wark 20 is extruded by the front cylinder 19. The sireark 20 is closed and the valve is separated.

The present invention provides a plurality of chucks formed of rocking materials in the direction of the salvation core, and female threads to be screwed with male threads formed on the wark. At the same time, it is possible to open the built-in valve in the sealed state.

Therefore, according to the present invention, it is possible to combine the wark by one touch, and to follow the opening and closing operation of the valve to follow the attaching and detaching operation, which is extremely safe operation, and can be quickly attached and detached, and can exert an excellent effect. It can be.

Claims (1)

In the fluid passage of the pipe fitting main cylinder 11, a sliding cylinder 10 whose outer circumferential surface is sealed is formed to be slidable in the fluid passage direction and between the sliding cylinder 10 and the pipe fitting main cylinder 1l. And the locking ring 5 of the lock portion 14 formed on the main cylinder 11 so as to be slidable in the same direction as the sliding cylinder 10, in a state of being fitted into the main cylinder 11, It is formed so as to be slidable in the same direction, and the sliding cylinder 10 and the engaging ring 5 and the like are elastically supported in the walk connection direction by springs 9 and 4, and the front end of the pipe fitting main cylinder 11 On the outer circumference, a plurality of wark chucks are elastically supported by a spring 12 along the outer circumferential surface of the main cylinder 11 and pressed against the outer circumference by the sleeve 7 elastically fitted with a flow. (16) is formed to swing freely in the direction of the salvation core, and the sliding barrel ) Is provided with a ball support portion 19a facing the ring 5 to press the lock portion 14 in the centripetal direction, and a sealing ring 15 sealing the vicinity of the front portion of the wark 20. At the same time, the pressing surface of the operation pin 23 formed on the front side of the wark 20 is provided on the front side, and the working operation ring 17 having the inner and outer communication holes 17a of the fluid is spring-loaded. (18) is elastically supported in the direction of the connection of the wark, and the female screw (16a) of engagement pitch with the male screw (22) formed on the outer circumferential surface of the wark (20) on the inner surface of the chuck (16). Tube fittings characterized in that) formed.