RU2140598C1 - Detachable joint for pipe lines - Google Patents

Abstract

FIELD: space engineering; units of hydraulic systems; mechanical engineering. SUBSTANCE: detachable joint has stationary and changeable bodies with valves fitted in them; they are interconnected by means of ball lock. Ball lock includes body, balls, outer casing mounted on changeable housing and circular groove made in stationary body. Body of ball lock is fixed against turn in groove of stationary body by means of projection. Changeable body is provided with nut connected with body of ball lock; this nut is rotatable relative to ball lock body. During rotation of nut, changeable body moves forward and backward without turning around axis due to retainer available on outer surface of body which moves inside longitudinal groove made in body of ball lock. EFFECT: enhanced reliability. 3 dwg

Description

 The invention relates to space technology, in particular to units of hydraulic systems, and can be used in mechanical engineering.

 A device for connecting pipelines is known, comprising two mating housings with valves installed in them and interacting with each other, one of which is fixedly mounted relative to the housing and is surrounded by a movable spring-loaded sleeve with seals, and the second is spring-loaded and movable relative to the second housing (see USSR Patent N 1813287 Cl. E 16 L 37/28). The disadvantage of this design is the inability to quickly undock two pipelines.

 The closest in technical essence to the proposed solution is a detachable connection of pipelines, containing a stationary and removable housing with valves installed in them, interconnected by a ball lock with an outer casing located on a removable housing (see ed. St. N 1043412, class E 16 L 37/28).

 The disadvantage of this design is the need to overcome during the docking force of the valve springs, which in zero gravity creates difficulties associated with limiting the effort exerted by the astronaut to dock.

 The technical result of the proposed design is: providing little effort for the astronaut needed to connect the pipelines, and the ability to quickly undock in the event of an emergency.

 The essence of the invention lies in the fact that in a detachable connection of pipelines containing a stationary and removable housing with valves installed in them, interconnected by a ball lock with an external housing located on the removable housing, a nut is mounted for rotation relative to the ball lock housing, on which is made the protrusion interacting with the groove made on the stationary housing, and on the outer surface of the removable housing a hole is made with a retainer placed in it with the possibility of axial displacements in the longitudinal groove of the ball lock housing.

 In FIG. 1 shows a sectional view of a General view of a device for connecting pipelines quick disconnect (STB).

 In FIG. 2 shows the stationary housing of the STB device.

 In FIG. 3 shows a replaceable housing of the STB device.

 The design of the device for STB consists of a replaceable housing 1, a valve 2 installed in it with a spring 3, a stationary housing 4, a movable valve 5 with a spring 6 installed in it, and a fixed valve 7.

 On a replaceable housing 1, a ball lock housing 8 and a nut 9 are installed, which are interconnected by a bearing 10, which provides rotation relative to each other. A longitudinal groove 11 is made in the ball lock housing 8, in which the latch 12 located in the hole 13 of the removable housing 1 moves, which allows the removable housing 1 to move along the axis relative to the ball lock housing 8.

 Replaceable 1 and stationary 4 cases are interconnected by a ball lock, which consists of a ball lock case 8, balls 14, which are supported by an annular groove 15 of the stationary case 4. Opening and closing the ball lock is carried out by axial movement of the outer casing 16 with the spring 17. The course is fixed the casing is carried out by a pin 18.

 The fixation of the rotation of the ball lock relative to the stationary housing 4 is the protrusion 19 on the housing of the ball lock 8, which is included in the groove 20 of the stationary housing 4.

 The connection of pipelines is carried out in two stages.

 The first - removable 1 and stationary 4 buildings are docked using a ball lock. To do this, the outer casing 16 is moved back, the ball lock housing 8 is moved along the stationary housing 4 until the balls 14 enter the groove 15 of the stationary housing 4, the protrusion 19 enters the groove 20 of the stationary housing. After this release the casing 16, the spring 17 return it to its original position and close the ball lock.

 The second is the opening of the pipeline trunk.

 To do this, by rotating the nut 9 relative to the stationary housing of the ball lock 8, which is fixed from turning by the protrusion 19 into the groove 20 of the stationary housing 4, the removable housing 1 is moved inside the stationary housing 4. The movement of the removable housing 1 occurs along the axis due to the latch 12 moving together with the housing in a longitudinal groove 11 of the ball lock housing 8.

 During movement, the removable housing 1 moves forward the movable valve 5 in the stationary housing 4, and the stationary valve 7 of the stationary housing 4 moves the valve 2 in the removable housing 1 back. The movement occurs until the removable housing 1 rests against the joint 21 of the stationary housing 4.

 STB disconnection can be quick. To do this, move the outer casing 16 back, which allows the balls 14 to move upward from the annular groove 15 of the stationary housing 4 inside the ball lock housing 8. Without releasing the outer casing 16, the arm continues to move backwards along the axis of the stationary housing 4, while the spring force 3 and 6, aimed at closing valves 2 and 5, acts in the direction of the astronaut’s hand movement, which facilitates his effort and speeds up the undocking of interchangeable 1 and stationary 4 cases in an emergency.

Claims (1)

 A detachable connection of pipelines comprising a stationary and removable housing with valves installed in them and interconnected by a ball lock with an outer casing located on the removable housing, characterized in that a nut is mounted on the removable housing relative to the ball lock housing on which the protrusion is made interacting with a groove made on a stationary housing, and on the outer surface of the removable housing a hole is made with a retainer placed in it with the possibility of axial movements in the longitudinal groove of the ball lock housing.

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