HU226351B1 - Method for filling of gas capsule with highpressure fluid - Google Patents

Abstract

A method of filling a capsule with helium comprises making a first crimp in a neck portion of the capsule spaced from the free end of the neck and subsequently making a second crimp at or immediately adjacent the free end of the neck to effectively form a chamber between the two crimps which inhibits the helium reaching the free end which is subsequently welded.

Description

The present high pressure, i.e. 30 to 80 · 10 ⁵ Pa os specific quantity of fluid is suitable for receiving the gas cartridge or gas cartridge refers to a method for filling such a material.

It is known that sealed cartridges are used to solve tasks in which a fluid, such as draft beer from a beer barrel or other beer container, or soda water from a soda siphon is utilized by using the power of a pressurized fluid. Such cartridges can be used to dispense other liquids, such as soft drinks, or pressurized beer from a container.

In the health field, as is known, sealed cartridges containing high-pressure helium are used for medical devices and instruments, utilizing the energy of pressurized helium to deliver pharmaceutical agents to the patient's skin through the skin.

WO 94/24263, published in PCT, discloses a needle-less injection syringe having a metal cartridge containing high-pressure helium gas; the function of helium gas is to deliver the pharmaceutical agent to the patient through the skin, substantially painlessly. The cartridge can be removed from the syringe and, once used, can be filled with either a fresh dose of gas or, more preferably, the empty cartridge can be disposed of and a new cartridge filled with helium gas can be attached to the syringe.

In the event that the gas cartridge is a disposable device after use, it is important that it is easy and inexpensive to produce. When used for medical purposes, helium gas is advantageous because it is very light and has the property of being a propellant for therapeutic agents because, when it hits the patient's skin surface, it escapes into the atmosphere and thus does not penetrate the skin. However, since helium is lightweight, it is difficult to store because it leaks through the smallest gap or slits in the cartridge due to a material defect.

The object of the invention is to eliminate the drawbacks of prior art cartridges provide a method of high-pressure fluid, in particular for the filling of at least ⁵ 30-10 Pa-inch helium.

The object of the present invention has been solved by a process which is essentially that

a) fluidly sealing a filling head to the free end portion of the neck, removing air from the hollow body and filling the fluid under pressure;

b) leaving the filling head at the free end portion and maintaining the overpressure of fluid in the hollow body by compressing the neck at a first location at a predetermined distance from the free end portion;

c) removing the filling head to expose the free end portion of the neck;

d) compressing the neck at the free end or at a second location in its immediate vicinity;

e) sealing the cartridge by sealing the free end of the neck.

Preferably, the fluid is at least ⁵ 30 to 10 psi helium. Preferably, an aluminum or aluminum alloy cartridge is used. It may also be advantageous to seal the cartridge by laser welding the free end of the neck.

The invention will now be described in more detail with reference to the accompanying drawing, which illustrates the various steps of a cartridge filling operation. Figure 1 is a side view of a cartridge containing a fluid under pressure;

Figure 2 shows the cartridge of Figure 1 with a pressed portion formed on its neck;

Fig. 3 also shows the cartridge of Fig. 1, but has two compression portions.

The cartridge shown in Fig. 1, all of which is designated by the numeral 1, has a hollow cylindrical body 2 made of aluminum or an aluminum alloy, which also has a hollow elongated neck 4 having a diameter smaller than the body 2. Before filling and sealing the cartridge, the neck 4 has a free, open end portion 6.

If the cartridge 1 is to be filled with a fluid such as helium under pressure, a filling head (not shown) is attached to the neck 4 of the cartridge 1 in a manner known per se. First, a vacuum is created in the cartridge 1, i.e., air is removed from its hollow body 2, and the hollow body 2 is filled with pressurized fluid. While leaving the filling head at the free end 6 of the neck 4 and maintaining the overpressure of the fluid inside the body 2, the neck 4 is compressed at a predetermined distance from the free end 6; this first compression site is shown in Figure 2. The first pressed location is compact enough to prevent significant leakage of fluid from the body 2.

In the next step, the filling head is removed from the free end portion 6 of the neck 4, which is thus released. Thereafter, a second crimping operation is performed immediately on or near the free end portion 6 as shown in FIG. 3, and the free end portion 6, i.e., the neck 4, is hermetically sealed substantially simultaneously with the crimping operation.

The purpose of the first pressed part is to prevent the pressurized fluid from reaching the second pressed part, and thus the free end part 6, which allows the laser welding to be carried out without gas-permeable gaps. In a very efficient manner, the two pressed portions form an intermediate chamber which prevents the fluid under pressure from reaching the area where the free end 6 of the neck 4 is sealed.

The pressed parts can be formed either in a circular or a simple flat stamping operation.

If a syringe is used the needle cartridge, the fluid at least ⁵ 30-10 psig helium.

HU 226 351 Β1

It is understood that the cartridge may be such areas of application as well, wherein substantially less than the pressure of the gas or liquid from the cartridge 30 to 10 ⁵ Pa.

Claims (4)

PATENT CLAIMS A method for filling a cartridge having a hollow body and a hollow neck protruding therefrom with a pressurized fluid, characterized in that: a) fluidly sealing a filling head to the free end portion (6) of the neck (4) from the hollow body (6); 2) removing the air and filling it with a pressurized fluid; b) leaving the filling head at the free end portion (6) and maintaining the filling pressure of the fluid in the hollow body (2) by compressing the neck (4) at a predetermined distance inwardly from the free end portion (6); c) removing the filling head to expose the free end portion (6) of the neck (4); D) compressing the neck (4) at the free end portion (6) or at a second location in its immediate vicinity; e) sealing the cartridge by sealing the free end (6) of the neck (4). Method according to claim 1, characterized in that helium at a pressure of at least 30 bar is charged into the cartridge (1). Method according to Claim 1 or 2, characterized in that a cartridge (1) made of aluminum or an aluminum alloy is used. 4. Method according to any one of claims 1 to 3, characterized in that the cartridge (1) is hermetically sealed by laser welding the free end portion (6) of the neck (4).