RU2037079C1 - Vessel valve - Google Patents

Abstract

FIELD: valving. SUBSTANCE: vessel valve has housing with seat and passages, valving member positioned for permitting movement over the thread of the housing, spindle, unit for sealing the spindle constructed as gasket nut and sealing member, and flywheel provided with axial hollow and fitted on the spindle shank. A nut is secured at the end of the shank positioned in the hollow. The nut is positioned in the space of a cap-like washer filled with a plasticizer for sealing. A spring is interposed between the washer and bottom of the hollow. The flywheel has a skirt which covers hexahedral surface of the gasket nut. The hollow of the flywheel is plugged with a polyethylene plug. EFFECT: enhanced reliability. 2 cl, 1 dwg

Description

 The invention relates to shut-off and control valves intended for installation on compressed gas cylinders.

Known valve comprising a housing with inlet and outlet nozzles and with a locking body. In the valve, means for controlling unauthorized dismantling are provided, which are formed by checking the wire with a seal of the stuffing nut to the body so that the free ends of the wire are twisted and a seal is installed on them [1]
However, such control over unauthorized dismantling does not exclude the possibility of replacing the flywheel with a flywheel of other sizes, which when installing a larger flywheel can lead to an increase in the interaction force of the shut-off valve with the seat and seal failure, and when a smaller flywheel is installed, to reduce the force and impair the valve shutoff .

 In addition, the location of the wire with the seal on the outside of the housing creates inconvenience in use and can lead to unintentional damage to the wire with the seal. Thus, the device does not fully solve the problem of reliable control, excluding unauthorized dismantling.

In a known valve, a cylinder in a housing with an inlet and outlet nozzles and with an additional nozzle in the passage channel of which a membrane is hermetically sealed, the shutoff valve is made with seals on the locking element and is connected to the housing with the possibility of movement along the thread relative to the valve seat. The valve spindle is kinematically connected to the valve locking element by a sleeve [2]
The spindle seal assembly is in the form of an packing with a packing nut. The valve has a flywheel, made with a central recess through which the spindle shank is passed and in which the nut and washer mounted on the shank are placed.

 The valve is equipped with a spring, one end of which interacts with the washer, and the other with the bottom of the flywheel recess, and a gasket is installed between the flywheel and the outer end of the stuffing box nut. The valve is selected for the prototype.

 There are no means in the design that control the fact of unauthorized (unauthorized) dismantling of the valve, which leads to the unauthorized replacement of its standard elements by non-standard, unsuitable for operation, which can cause an emergency.

 The technical task of the proposed technical solution is to increase the reliability of control by eliminating unauthorized dismantling and, as a consequence, to eliminate an emergency situation, as well as to increase the reliability of the normal functioning of the valve.

 To do this, in the valve, the flywheel is made with a skirt covering the hexagonal surface of the stuffing box nut, the washer is cup-shaped, the nut is placed in its cavity, which is filled with a plasticizer for sealing. In this case, the recess of the flywheel is closed by a polyethylene plug, on which a shoulder is made, which enters the annular groove on the cylindrical wall of the recess.

 An assembly drawing illustrates the operation of the valve.

 The device comprises a housing 1 with an input channel 2, an output channel 3 and an additional channel 4.

 Inlet channel 2 and outlet channel 3 are designed to supply compressed gas from the cylinder to the consumer. The additional channel 4 is equipped with a bursting sealed membrane 5 and is designed to discharge gas outward when the pressure in the cylinder exceeds the permissible value.

 A locking member 6 is integrated in the housing 1, having a polymer seal 7 at the working end.

 The locking element 6 is installed with the possibility of moving it along the thread 8 relative to the saddle 9 of the housing 1.

 The drive of the locking member 6 is a flywheel 10, which is made with a skirt 11. In the flywheel 10, a recess 12 is made, through which the shank 13 of the spindle 14 is passed.

 The spindle 14 is connected by a sleeve 15 with a locking member 6.

 The seal assembly 16 of the spindle 14 is made in the form of a fluoroplastic stuffing box sealing element 17 and the stuffing box nut 18. The stuffing box 18 has a hexagonal surface 19 and a cylindrical surface 20 and is connected by a thread 21 to the housing 1 so that its hexagonal surface (key space) is recessed under flywheel skirt 11.

 A nut 22 with a washer 23 is placed in the recess 12 of the flywheel 10. The washer 23 is cup-shaped, spring-loaded with a conical compression spring 24 and mounted on the shank 13 of the spindle 14 so that the nut 22 is recessed in its cavity. The conical compression spring 24 is supported by a large base in the bottom of the recess 12.

 The recess 12 of the flywheel 10 is made with an annular groove 25 and is closed by a polyethylene plug 26 having an annular shoulder 27, the surface of which is mated to the surface of the annular groove 25.

 The space between the surface of the washer 2 and the nut 24 is filled with a non-drying plasticizer 28, i.e. the valve is sealed.

 Between the end of the flywheel 10 and the outer end of the stuffing box nut 18 a gasket 29 is installed, which is designed to reduce friction.

 The principle of operation of the valve is as follows.

 The valve is operated complete with a cylinder for the compressed gas on which it is installed.

 When the flywheel 10 is rotated clockwise, the rotation of the flywheel 10 is transmitted through the spindle 14, the coupling 15 to the locking member 6, which is threaded to the side of the inlet channel 2 and closes it with its polymer seal 7. To supply gas to the consumer, the flywheel 10 must be turned counterclockwise. In this case, the locking element 6 opens the inlet channel 2 of the valve, and gas enters through the outlet channel 3 to the consumer.

 When the pressure in the cylinder rises above the permissible (usually more than one and a half times the maximum working pressure) bursting hermetic membrane 5 is destroyed, and gas through the additional channel 4 is discharged from the cylinder.

 The main advantage of this valve design over existing ones is the inability for the consumer to disassemble the valve and replace the standard parts with home-made parts without breaking the seal and breaking the plastic plug 25.

 This is achieved by the following interconnected set of features. The hexagonal surface 19 of the stuffing nut 18 is recessed under the skirt of the flywheel 10. The washer is bowl-shaped, the nut 22 is placed in the cavity of this washer 23. The recess 12 of the flywheel 10 is closed by a plastic stopper, on which an annular collar is made, which enters into the annular groove 25 on the cylindrical wall of the recess 12. The washer 23 is spring-loaded with a conical compression spring 24, which eliminates the rotation of the nut 22 and the violation of the seal during operation. The space between the cup-shaped washer and the nut 22 recessed in it is filled for sealing with a non-drying plasticizer.

 The proposed design allows to prevent repairs by an unskilled consumer, which can disable the valve and lead to fire.

Claims (1)

 CYLINDER VALVE, comprising a housing with a seat, inlet, outlet and additional channels blocked by a membrane, a locking member with a seal located for movement along the thread of the housing relative to the seat, a spindle connected to the locking member by means of a coupling, a spindle seal assembly made in the form of a stuffing box the nut and the sealing element located in it, connected to the spindle of the flywheel with the recess, on the spindle shank located in the recess of the flywheel, the nut is fixed and the washer and spring are placed, inter acting at one end with the washer and the other end with the bottom of the recess, while a gasket is installed between the ends of the flywheel and the stuffing box nut, characterized in that the flywheel is made with a skirt covering the hexagonal surface of the stuffing box nut, the washer is cup-shaped, the nut is placed in its cavity, which filled with a plasticizer for sealing, while the recess of the flywheel is closed with a plastic stopper, on which an annular collar is made, which enters the annular groove on the cylindrical wall of the recess.