RU2013103520A - DOSING VALVE FOR PRESSURE BOTTLE - Google Patents

Abstract

1. A metering valve (1) for a pressure bottle, comprising a valve body (9) in which the valve locking element (4) is mounted to slideably move the metering chamber (7) and means for moving the valve locking element (4) between the closed position in which, in the mounted state on the bottle, the metering chamber (7) communicates with the inner space of the bottle and is isolated from the outer space of the bottle, and in the open position, in which the metering chamber (7) is isolated from the inside of the mounted state the outer space of the vial and communicated with the outer space of the vial, characterized in that the dosing chamber (7) is fixed with its upper end to a part of the valve body (9) located in the mounted state inside the vial, while there is an inlet channel (99, 981, 714, 712), configured to provide communication between the inner space of the vial and the dosing chamber, and an output channel (712, 714, 442, 443, 51b, 45, 42), configured to provide communication between the dosing chamber and the outer space of the valve, p what is there means for blocking the entrance to block the inlet channel when the locking element (4) of the valve is in the open position, and means for blocking the output for closing the output channel when the locking element (4) of the valve is in the closed position, while the locking element of the valve is made with the possibility of moving from an open position to a third position, called a shunted position, the third channel (931, 94, 31, 48, 47), called a shunt channel, is made to provide communication between the internal

Claims (25)

1. A metering valve (1) for a pressure bottle, comprising a valve body (9) in which the valve locking element (4) is mounted to slideably move the metering chamber (7) and means for moving the valve locking element (4) between the closed position in which, in the mounted state on the bottle, the metering chamber (7) communicates with the inner space of the bottle and is isolated from the outer space of the bottle, and in the open position, in which the metering chamber (7) is isolated from the inside of the mounted state the outer space of the vial and communicated with the outer space of the vial, characterized in that the dosing chamber (7) is fixed with its upper end to a part of the valve body (9) located in the mounted state inside the vial, while there is an inlet channel (99, 981, 714, 712), configured to provide communication between the inner space of the vial and the dosing chamber, and an output channel (712, 714, 442, 443, 51b, 45, 42), configured to provide communication between the dosing chamber and the outer space of the valve, p what is there means for blocking the entrance to block the inlet channel when the locking element (4) of the valve is in the open position, and means for blocking the output for closing the output channel when the locking element (4) of the valve is in the closed position, while the locking element of the valve is made with the possibility of moving from an open position to a third position, called a shunted position, the third channel (931, 94, 31, 48, 47), called a shunt channel, is made to provide communication between the internal These vials space and outer space of the valve, wherein there are means (5a) for closing the overlap shunt bypass channel when the closure element (4) of the valve is in the closed position or the open position. 2. The metering valve (1) according to claim 1, characterized in that the shunt channel provides communication between the inner space of the bottle and the outer space of the valve, bypassing the metering chamber. 3. The metering valve (1) according to claim 1, characterized in that the means for blocking the inlet and / or means for blocking the outlet are in the closed position when the locking element of the valve is in the shunted position, if the shunt channel does not pass through at least part of the input channel and / or output channel. 4. The metering valve (1) according to claim 1, characterized in that the means for blocking the input and means for blocking the output are independent of each other. 5. A metering valve (1) according to one of claims 1 to 4, characterized in that the inlet channel is formed by at least one hole formed in the wall of the valve body in the area in communication with the interior of the bottle or bag (11), a hole made in the wall (98) located inside the valve body (9) and a hole (712) made in the metering chamber (7), and the input shutoff means being formed by the lower end of the valve locking element in the form of a cylindrical pin (44), whose radial section corresponds to the inner the size of the hole of the wall (98) so that when the pin is in the hole, it seals it tightly, while the wall (98) is preferably made in the form of an annular protrusion (98) ending in a funnel (981) facing the dosing chamber (7). 6. Dosing valve (1) according to claim 5, characterized in that under the hole made in the wall (98), sealing means are located, preferably such as a toroidal gasket (717). 7. The metering valve (1) according to one of claims 1 to 4, 6, characterized in that the outlet channel is formed by an opening (712) made in the metering chamber (7), an opening made in the wall (98) located inside the housing (9) the valve, the lower Central channel (442) and the upper Central channel (42), made in the locking element (4) of the valve and separated from each other by a barrier (43), while in the wall of the locking element of the valve is made at least one hole (45) providing communication between the inner space of the upper central channel at least one hole (443) is made in the wall (42) and the outer space of the valve locking element and in the wall of the valve locking element (443), providing communication between the inner space of the lower central channel (442) and the outer space of the locking element (4 ) a valve, while there is a communication channel (51b) for communicating the hole or holes (443) with the hole or holes (45), and the means for blocking the outlet are a chamber gasket (5b) made in the form of an annular wall, inside of which th, the valve locking element is slidably movable, while the inner side of the chamber gasket (5b) comprises at least one annular groove (51b), the height of which is at least equal to the vertical distance separating the hole or holes (45) made in the upper Central channel (42), and a hole or holes (443) made in the lower Central channel (442), while the hole or holes (45) of the upper Central channel and / or hole or holes (443) of the lower Central channel overlap I inner side of the ring machine when the valve is in the closed position, thus blocking the outlet channel, and the hole or holes (45) of the upper central channel and the hole or holes (443) of the lower central channel exit into the annular groove (51b) when the valve is in the open position, thus freeing the output channel. 8. The metering valve (1) according to claim 5, characterized in that the outlet channel is formed by an opening (712) made in the metering chamber (7), an opening made in the wall (98) located inside the valve body (9), lower the Central channel (442) and the upper Central channel (42), made in the locking element (4) of the valve and separated from each other by a barrier (43), while at least one hole (45) is made in the wall of the locking element of the valve, providing communication between the inner space of the upper central channel (42) and the outside at least one hole (443) is made in the wall of the valve locking element and in the wall of the valve locking element (443), providing communication between the inner space of the lower central channel (442) and the outer space of the valve locking element (4), there is a communication channel (51b) for communicating the hole (s) (443) with the hole (s) (45), the means for blocking the output being a chamber gasket (5b) made in the form of an annular wall inside which with the possibility of sliding the valve shutter element, while the inner side of the chamber gasket (5b) contains at least one annular groove (51b), the height of which is at least equal to the vertical distance dividing the hole or holes (45) made in the upper Central channel (42), and the hole or holes (443) made in the lower Central channel (442), while the hole or holes (45) of the upper Central channel and / or hole or holes (443) of the lower Central channel overlap the inner the side of the ring machine when the valve is in the closed position, thus blocking the outlet channel, and the hole or holes (45) of the upper central channel and the hole or holes (443) of the lower central channel exit into the ring groove (51b) when the valve is in the open position, thus freeing the output channel. 9. The metering valve (1) according to one of claims 1 to 4, 6, 8, characterized in that the metering chamber contains a cylinder (721), the end of which, opposite the valve body and called the bottom, is closed by a radial wall (722), called the lower and the end directed towards the valve body and called the upper one, is closed by a radial wall (711), called the upper one, while a piston (73) is installed inside the cylinder (721), which is made to move by sliding between these two radial walls, limiting the dosage volume . 10. A metering valve (1) according to claim 9, characterized in that an opening (712) is made in the upper radial wall (711) of the metering chamber, while the piston is movable by sliding between two radial walls (722, 711) of the cylinder, however, between the lower radial wall (722) of the metering chamber and the piston (73) there is a spring (74) for pushing this piston to the upper radial wall (711) containing the hole, in the absence of other forces. 11. The metering valve (1) according to claim 9, characterized in that the cylinder (721) forming the metering chamber and its upper radial wall (711) and / or its lower radial wall (722) are made in the form of separate parts made with the ability to connect or disconnect, while there are means (716, 723) for mounting the specified wall on the cylinder (721). 12. The metering valve (1) of claim 10, characterized in that the cylinder (721) forming the metering chamber and its upper radial wall (711) and / or its lower radial wall (722) are made in the form of separate parts made with the ability to connect or disconnect, while there are means (716, 723) for mounting the specified wall on the cylinder (721). 13. The metering valve (1) according to one of claims 1 to 4, 6, 8, 10-12, characterized in that the flexible bag (11) is fixed by welding on the valve body (9), closing the metering chamber (7), and the beginning of the input, output and, if necessary, shunt paths. 14. The metering valve (1) according to claim 5, characterized in that the flexible bag (11) is fixed by welding on the valve body (9), closing the metering chamber (7), and the beginning of the inlet, outlet and, if necessary, shunt paths . 15. The metering valve (1) according to claim 7, characterized in that the flexible bag (11) is fixed by welding on the valve body (9), closing the metering chamber (7), and the beginning of the inlet, outlet and, if necessary, shunt paths . 16. The metering valve (1) according to claim 9, characterized in that the flexible bag (11) is fixed by welding on the valve body (9), closing the metering chamber (7), and the beginning of the inlet, outlet and, if necessary, shunt paths . 17. Dosing valve (1) according to one of claims 1 to 4, 6, 8, 10-12, 14-16, characterized in that the valve locking element (4) contains a first cylindrical wall (41), called the upper and forming the first axial channel (42), called the upper, and the second cylindrical wall (44), forming the second axial channel (442), while both axial channels are isolated from each other by a barrier (43), and the upper channel (42) is open on its upper the end through the axial hole and from the side of the barrier (43), through at least one radial hole (45) extending to the outside of the of the valve element, while the lower channel (442) is open at its lower end through the axial hole and from the side of the barrier (43), through at least one radial hole (443), which extends to the outside of the valve locking element, while the locking the valve element is preferably equipped with at least one annular stop (49a, 49b) on its circumference to limit its movement inside the valve body (9) in the direction of the outer or inner space. 18. A metering valve (1) according to claim 17, characterized in that the shut-off element (4) of the valve is equipped with a third cylindrical wall (46), covering at least partially the first cylindrical wall (41) and being concentric with it, forming an annular channel (47), wherein said annular channel (47) is isolated from the other two and contains at its upper end an axial hole and at least one radial hole (48) for establishing communication between the inner space of the annular channel (47) and the outer space of the locking ele valve, the dimensions of the valve body (9) and the valve locking element (4) are designed so that the valve locking element (4) can be moved outside the open position to the so-called shunted position, and the valve body (9) is equipped with a gasket ( 5a) a valve closure element mounted opposite to the metering chamber and located so that in the mounted state of the valve the radial or radial holes (48) of the annular channel (47) are in the closed position of the valve outside the bottle so that in the open position of the valve, the radial or radial holes (48) were opposite the gasket (5a) of the valve locking element and overlapped by this gasket or outside the bottle and so that in the shunted position of the valve the radial or radial holes (48) of the annular channel (47) were on the gasket side ( 5a) a locking element of the valve opposite to the outside. 19. Dosing valve (1) according to claim 17, characterized in that the valve body (9) is provided with a gasket (5b) of a chamber located in the valve body (9) so that in the closed position of the valve the radial or radial openings of the upper channel (42 ) the valve locking element is at the level of the chamber gasket (5b) and overlaps with this gasket, while the annular stop (49a) is hermetically supported on this chamber gasket (5b). 20. The metering valve (1) according to one of claims 1 to 4, 6, 8, 10-12, 14-16, 18, 19, characterized in that on the outside of the valve body (9) there is at least one side channel (931), while the specified side channel (931) contains a first hole extending in a mounted state inside the bottle or bag (11), and a second hole (94) extending into the valve body between the gasket (5a) of the valve and the gasket (5b) of the camera. 21. Dosing valve (1) according to claim 5, characterized in that on the outside of the valve body (9) there is at least one side channel (931), said side channel (931) containing a first opening when mounted, inside the bottle or bag (11), and a second hole (94) extending into the valve body between the gasket (5a) of the valve closure member and the gasket (5b) of the chamber. 22. The metering valve (1) according to claim 7, characterized in that on the outside of the valve body (9) there is at least one side channel (931), said side channel (931) containing a first opening when mounted, inside the bottle or bag (11), and a second hole (94) extending into the valve body between the gasket (5a) of the valve closure member and the gasket (5b) of the chamber. 23. Dosing valve (1) according to claim 9, characterized in that on the outer side of the valve body (9) there is at least one side channel (931), said side channel (931) containing a first opening extending when mounted, inside the bottle or bag (11), and a second hole (94) extending into the valve body between the gasket (5a) of the valve closure member and the gasket (5b) of the chamber. 24. The metering valve (1) according to item 13, wherein the outer side of the valve body (9) has at least one side channel (931), said side channel (931) having a first opening extending when mounted, inside the bottle or bag (11), and a second hole (94) extending into the valve body between the gasket (5a) of the valve closure member and the gasket (5b) of the chamber. 25. Dosing valve (1) according to 17, characterized in that on the outside of the valve body (9) there is at least one side channel (931), said side channel (931) containing a first opening when mounted, inside the bottle or bag (11), and a second hole (94) extending into the valve body between the gasket (5a) of the valve closure member and the gasket (5b) of the chamber.