RU2213290C2 - Bottle shut-off device - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: proposed shut-off device has pipe union and nipple in its outlet hole with pierced membrane between them. Nipple is mounted inside pipe union. Pierced membrane is made in form of part of spherical envelope changing to cylindrical envelope or part of spherical envelope changing to conical envelope. Gasket laid between pierced membrane and pipe union is made from elastic material as part of spherical envelope changing to cylindrical envelope or part of spherical envelope changing to conical envelope. EFFECT: enhanced reliability of sealing-up shutoff device of bottle. 1 dwg

Description

 The invention relates to valves used in balloon systems with liquefied gas.

 Known locking device of the container containing mounted on its outlet a fitting and a nipple with a pierceable membrane / I / installed between them.

 The design of the known device allows leakage of the contents of the container with slight deviations in the accuracy of the manufacture of threaded connections.

 The objective of the invention is to increase the reliability of the sealing of the locking device of the cylinder.

 The problem is solved due to the fact that in the locking device of the container containing a fitting and a nipple with a punctured membrane installed between them, according to the invention, the nipple is installed inside the fitting, the punctured membrane is made in the form of a part of a spherical shell turning into a cylindrical shell or part of the spherical shell turning into a conical shell, and between the pierced membrane and the fitting there is a gasket made of elastic material made in the form of parts of a spherical shell turning into a cylindrical shell, or parts of a spherical shell turning into a conical shell.

 Shut-off devices containing a punctured membrane relate, as a rule, to cylinders having small dimensions. For example, for locking devices for cylinders for household siphons, the connecting diameter of the nozzle should be no more than 6-9 mm. In this case, the annular gap between the fitting and the nipple can be in the range of 0.2-0.8 mm, and to ensure reliable sealing of the joint between them only along the spherical part is quite difficult technologically, and therefore expensive. The punctured membrane and gasket in the form of a part of a spherical shell turning into a cylindrical shell, or a part of a spherical shell turning into a conical shell, ensures their predetermined location in the spherical part and fills the annular gap between the fitting and the nipple with an elastic gasket material. This provides an additional sealing area between the fitting and the nipple, which is especially important in conditions of limited space of locking devices with a punctured membrane for small cylinders.

 The drawing shows a General view of the device.

 The locking device of the cylinder 1 contains a fitting 3 attached to its outlet 2 and a nipple 4, between which a pierceable membrane 5 is installed. The nipple 4 is installed inside the fitting 3 by means of a threaded connection. The punctured membrane 5 is made in the form of a part of a spherical shell turning into a cylindrical shell, or a part of a spherical shell turning into a conical shell, and a gasket 6 made of elastic material is located between it and the nozzle 3. The fitting 3 is connected to the cylinder 1 by means of a threaded connection, while a gasket 7 of elastic material is installed between them. Located between the fitting 3 and the pierced membrane 5, the gasket 6 is made of an elastic material in the form of a part of a spherical shell turning into a cylindrical shell, or a part of a spherical shell turning into a conical shell.

 The locking device is used as follows.

 A gasket 7 is subsequently installed on the nipple 4, then the pierced membrane 5 with the gasket 6. Using a threaded connection, the nipple 4 is installed in the fitting 3 until the gaskets 6 and 7 are tightly connected with the corresponding surfaces between the fitting 3 - the nipple 4, the fitting 3 - the pierced membrane 5. The tightness of these compounds is achieved through the use of elastic material for gaskets 7 and 6, for example, selected from a number of soft alloys based on lead, or copper, or aluminum, or plastics. In addition, the possible error in the manufacture of a threaded connection between the nozzle 3 and the nipple 4 is compensated by the self-installation of a punctured membrane 5 with a gasket 6 in the hole of the nozzle 3 due to the spherical shape of their surfaces turning into a cylindrical or conical shell. The assembly thus assembled is installed by means of a threaded connection on the cylinder 1 until the gasket 7 is in close contact with the fitting 3 and the end surface of the cylinder 1. After using the cylinder 1 by piercing the holes in the pierced membrane 5, the locking device is disassembled in the reverse order.

Sourse of information
1. A.S. USSR 1803672, F 17 C 13/06.

Claims (1)

 A cylinder locking device containing a fitting and a nipple fixed to its outlet with a pierceable membrane installed between them, characterized in that the nipple is installed inside the fitting, the pierceable membrane is made in the form of a part of a spherical shell turning into a cylindrical shell, or a part of a spherical shell turning into conical shell, and between the punctured membrane and the fitting there is a gasket made of elastic material made in the form of a part of a spherical shell turning into a cylinder a shell or part of a spherical shell turning into a conical shell.