RU2673927C1 - High pressure cylinder - Google Patents

Abstract

FIELD: motor vehicle industry.

SUBSTANCE: invention relates to pressure vessels and can be used as gas cylinders for road transport. High-pressure cylinder for compressed gas contains an internal thin-walled sealing liner and an external power shell made of composite material on the entire surface of the liner. Ends of the liner on the bottoms are made flush with the composite material of the power shell. Cylinder has a neck with a cylindrical internal thread and grooves under the end ring seals of the parts to be attached. Ends of the necks are made perpendicular to the thread and are equipped with additional annular grooves, in the peripheral part of which annular seals are installed. Rest of the grooves, free from O-rings, are connected by channels to the gas leakage control circuit.

EFFECT: technical result consists in providing the possibility of capturing gas leaks through the seal of parts attached to the throats.

4 cl, 3 dwg

Description

The invention relates to pressure vessels and can be used as gas cylinders for automobile transport.

Cars and buses converted to compressed natural gas have a gas leakage control loop (see, for example, Saga-7 Gas Cylinder Equipment, http://www.razlib.ru/tehnicheskie_nauki/avtomobilnye_gazovye_toplivnye_sistemy / p15.php).

It is especially important from the point of view of safety to ensure the removal of possible gas leaks in the cylinder installed inside the vehicle.

In the case of a cylinder with a single neck, gas leaks are possible through a valve seal with a neck.

The valve must either have drainage channels through which gas in the event of a leak is discharged through two flexible corrugated hoses outside the vehicle, or be closed by a gas-tight protective casing of soft transparent material connected to the outside of the car by two corrugations. In the latter case, the protrusion of the part of the neck of the liner above the bottom of the cylinder should be provided for fixing the protective casing on it. (See EMER S.p.a. CNG AND LPG VALVES prospectus, pp. 13-15).

In the gas leakage control loop, sensors are installed to signal a gas leak.

Another place for possible gas leaks, in the case of a cylinder with two necks, may be a seal between the neck and the cork. At the same time, the protrusion of the part of the neck of the liner above the bottom of the cylinder should also be provided on the cylinder. An annular recess is made on this protruding part. To control gas leaks, a corrugated hose is put on this part of the neck, fixing it with a special clamp. Due to the presence of protruding parts of the neck of the liner above the bottom of the cylinder, its length increases with constant capacity. (See international application W02013000954 (A1) -2013-01-03).

The cylinders with the ends of metal liners (cylinders of 3 types according to ISO 11439) or the ends of metal embedded elements (cylinders of 4 types according to ISO 11439) are made at the ends of the bottoms flush with the shell made of composite materials with the same capacity.

Known composite high-pressure balloon containing an external power shell made of composite material and an internal thin-walled liner made of aluminum alloy, while the ends of the liner on the bottoms are flush with the shell made of composite material. In one of the throat openings on a cylindrical thread with a mechanical seal, it is possible to install a fitting that acts as an adapter for installing a tapered thread valve. (See the description of the utility model for patent No. 46834, IPC F17C 1/00, F17C 1/06, published July 27, 2005).

A plug is installed in another hole on a cylindrical thread with an end ring seal.

With this design of the container, there are no conditions for trapping possible gas leaks through the seals of the attached parts.

Known high-pressure cylinder, including an internal all-metal liner and an external power element made of composite material, in which the ends of the liner on the bottom are flush with the composite material of the power element. (See the description of the invention to RF patent No. 2333417, IPC F17C 1/06, published September 10, 2008).

The cylinder has the same drawback as the cylinder presented in Utility Model 46834.

Known high-pressure cylinder metal composite fuel BDMT-24.5 TU 2296-026-03455343-06 for transportation and storage of natural gas, adopted as a prototype. The cylinder consists of a metal liner made of aluminum alloy, a fiberglass power shell on the entire surface of the liner, plugs and adapters. The plug and adapter are mounted on the neck of the cylinder on a cylindrical thread. O-rings are used for sealing, placed in the end bores of the liner. The ends of the liner on the bottoms are flush with the fiberglass power shell.

The disadvantage of the prototype, as well as analogues, is that there are no conditions for trapping possible gas leaks through seals of connected parts.

The technical task is to create a high-pressure cylinder of maximum capacity with a minimum length with the possibility of catching gas leaks through the seal parts that are attached to the necks.

The technical result is achieved by the fact that in a known container containing an internal thin-walled sealing liner and an external power shell made of composite material on the entire surface of the liner, the ends of the liner on the bottoms are flush with the composite material of the power shell having mouths with cylindrical internal thread and grooves under mechanical ring seals of the parts to be joined, the ends of the necks are made perpendicular to the thread and provided with additional ring grooves, in The peripheral part of which has O-rings, and the rest of the grooves, free of O-rings, are connected by channels to the gas leakage control loop.

The requirement of perpendicularity of the thread to the ends of the necks is associated with the need to ensure complete fit of the ends of the parts to be attached to the ends of the necks. Otherwise, the possibility of squeezing the seal with high-pressure gas into the gap resulting from the skewness of the ends of the parts to be attached to the ends of the necks and, therefore, a decrease in the reliability of the balloon, is not ruled out.

Additional annular grooves have a width of at least two diameters of the O-rings and a depth of not more than 75% of the diameter of the ring.

With these sizes of additional annular grooves, reliable sealing of the connected parts is achieved and favorable conditions are provided for monitoring and removing possible gas leaks through the gas leakage control loop.

In metal composite cylinders, additional annular grooves can be made at the ends of the necks of metal liners with one and two necks.

In composite cylinders having a sealing shell made of a polymeric material, metal plugs are usually installed in one-neck or two-necked cylinders for reliable installation of the connected parts in the pole parts of the shell. Therefore, additional annular grooves can be made at the ends of the necks of the embedded metal elements of the plastic liner with one and two necks.

In FIG. 1 shows a General view of one of the proposed cylinders - metal composite two-necked.

In FIG. 2 is an enlarged view of A in FIG. one.

In FIG. 3 is an enlarged view of B in FIG. one.

The cylinder (see Fig. 1, 2, 3) contains a metal liner 1 with two necks, a power shell 2 of composite material on the entire surface of the liner. The ends of the liner are flush with the composite material of the power shell. In the neck of the liner - a cylindrical thread. A plug 3 with an end ring seal 4 is installed in one of the necks. An additional annular groove 5 is made at the end of the liner, in the peripheral part of which an annular seal 6 is installed, and the rest of the groove free from the ring is connected by a channel 7 to the gas leakage control loop.

The corrugated hose (not shown in Fig. 1) is put on the tube flange and fixed on the annular recess with a special clamp.

An adapter 8 with an end ring seal 4 is installed in the other neck. An additional annular groove 9 is also made on the end of the liner. An annular seal 10 is installed in the peripheral part thereof. The ring-free part of the annular groove is connected by a channel 11 to a protective casing of transparent elastic material for a valve with tapered thread installed in the adapter (not shown in Fig. 1). The protective casing is fixed on the annular recess of the adapter with a special clamp.

The cylinder works as follows. Possible gas leaks through the seals 4 of the attached parts 3 and 8 enter the annular grooves 5 and 9 and through the channels 7 and 11 into the gas leakage control circuit and are led outside the vehicle by corrugated hoses fixed by special clamps on the annular recesses of the connected parts.

Thus, the proposed cylinder with a liner, the end parts of which are flush with the composite material of the power shell, which has a maximum capacity at the same length, unlike analogues and prototype, makes it simple and easy to create a gas leakage control circuit in cars.

Claims (4)

1. A high-pressure cylinder containing an internal thin-walled sealing liner and an external power shell of composite material on the entire surface of the liner; wherein the ends of the liner on the bottoms are made flush with the composite material of the power shell, having mouths with a cylindrical internal thread and grooves for end ring seals of attached parts, characterized in that the ends of the necks are made perpendicular to the thread and provided with additional ring grooves, in the peripheral part of which there are ring seals, and the rest of the grooves, free of O-rings, is connected by channels to the gas leakage control loop. 2. The high-pressure cylinder according to claim 1, characterized in that the additional annular grooves have a width of at least two diameters of the o-rings and a depth of not more than 75% of the diameter of the ring. 3. High-pressure cylinder according to claim 1 or 2, characterized in that the additional annular grooves are made at the ends of the necks of metal liners with one and two necks. 4. The high-pressure cylinder according to claim 1 or 2, characterized in that the additional annular grooves are made at the ends of the necks of embedded metal elements of plastic liners with one and two necks.

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