PL190106B1 - Gas capsule and method of filling same - 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. <IMAGE>

Description

The subject of the invention is a method for filling a capsule, in particular a capsule with high fluid pressure in the range of 3-8 MPa (30-80 bar).

Sealed capsules are known in cases where the force of a pressurized liquid is used to dispense substances, for example pouring draft beer from beer dispensers or soda water from a siphon. They can also be used in fluid tanks for soft drinks or pressurized beer.

Moreover, it is known to use sealed high pressure helium capsules in medical devices that use the energy of pressurized helium to deliver medicaments through the skin of a patient.

PCT Published Application No. WO94 / 24263 discloses a needle-free syringe which contains a metal capsule containing high pressure helium which is used to cause particles of the medicament to pass through the skin of a patient in a painless manner. The capsule is removable from the syringe either to refill it with gas or to insert a new gas-charged capsule.

Where a gas capsule is discarded it is important that it is manufactured simply and cheaply. In medical applications, helium is preferably in the form of a liquid because it is very light, which makes it suitable for use as a propellant for medicaments in impact with the skin of a patient. Upon contact with the skin, it is thrown into the atmosphere and does not pass into the patient's skin. Since helium is light, it is difficult to keep in the container as it would leak even through the tiniest gaps in the container.

The object of the invention is to provide a method for filling a capsule with a fluid under pressure, in particular a method for filling a gas capsule with helium at a pressure of at least 3 MPa (30 bar).

According to the invention, a method of filling a capsule with a hollow body and a hollow neck portion protruding from the body with a fluid under pressure, carried out in stages, the filling cap being tightly brought to the free end of the part

190 106 of the neck, venting of the hollow body is initiated and the body is filled with fluid under pressure while the filler cap is still in place and the fluid pressure is maintained, a neck fold is formed at a location remote from the free end of the neck portion, the filler cap is removed and a free end is exposed. end of the neck portion and then the free end of the neck portion is welded and the capsule is hermetically sealed, characterized in that before filling the hollow body with fluid under pressure, the hollow body is emptied and the filler cap is removed, and before welding the free end of the neck portion a second pleat is formed on the adjacent the free end of the neck.

The fluid used is preferably helium at a pressure of at least 3 MPa (30 bar).

A capsule made of aluminum or aluminum alloy is used as the capsule. The free end of the neck is laser-welded and the capsule hermetically sealed.

The subject matter of the invention has been explained in the embodiment in the drawing, in which fig. 1 shows a pressurized fluid container capsule in top view, fig. 2 - a view similar to fig. 1, showing the first fold applied to the neck part of the capsule, and Fig. 3 shows the capsule similar to Figs. 1 and 2, showing the second pleat applied to the neck portion of the capsule according to the invention.

As shown in the drawing, the capsule 1 comprises a hollow cylindrical body 2, for example made of aluminum or an aluminum alloy, from which an elongated hollow neck portion 4 extends with a smaller diameter than that of the body 2. Initially, the neck portion 4 has an open free end 6.

If it is necessary to fill the capsule 1 with a liquid, such as helium under pressure, a filling cap not shown is applied in a known manner to the free end 6 of the neck part 4. To empty the hollow cylindrical body 2, a vacuum is applied to the filling cap and the body 2 is then filled. pressurized fluid. While the filler cap is still seated on the free end of the neck portion 4 and continuously maintaining a fluid overpressure in the body 2, the neck portion 4 becomes folded at a location remote from the free end 6 (Fig. 2). This folding is made sufficiently durable to avoid significant fluid leakage from the body 2.

The filler cap is then removed from the free end 6 of the neck portion 4 to expose the free end 6. Immediately after the free end 6 is exposed, a second pleat (Fig. 3) is formed at the adjacent free end and at the same time the free end 6 is laser welded to an airtight seal. end of neck 4.

The purpose of the first corrugation is to prevent pressurized fluid from reaching the second corrugation and thus to the free end 6, so that laser welding can be performed without gas permeable channels. As a result, these two folds define an intermediate chamber which prevents or inhibits the passage of fluid under pressure to the point where the free end 6 of the neck portion 4 is to be welded.

The corrugations can be of various shapes, for example they can be circular in cross section or they can be flat.

If the capsule is to be used in conjunction with a needleless syringe then the fluid is preferably helium at a pressure of at least 30 bar.

Other applications are possible where the capsule contains a gas or liquid at a pressure less than 3 MPa (30 bar).

190 106

FIG. 1

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Publishing Department of the UP RP. Circulation of 50 copies. Price PLN 2.00.

Claims (4)

Patent claims A method of filling a capsule with a hollow body and a hollow neck protruding from the body with a fluid under pressure, carried out in stages, the filling cap is tightly brought to the free end of the neck part, venting of the hollow body is initiated and the body is filled with a fluid under pressure with the filler cap still in place and the fluid pressure maintained, a crease in the neck portion is formed at a location remote from the free end of this neck portion, the filler cap is removed and the free end of the neck portion is exposed, then the free end of the neck portion is welded and the capsule is hermetically sealed, characterized by in that before the pressurized fluid is filled into the hollow body (2), the body (2) is emptied and the filling cap is removed, and before the free end (6) of the neck part (4) is welded, a second fold is formed at the adjacent free end (6) of the part cervical (4). 2. The method according to p. The process of claim 1, wherein the fluid is helium at a pressure of at least 3 MPa (30 bar). 3. The method according to p. The method of claim 1 or 2, characterized in that the capsule is made of aluminum or aluminum alloy. 4. The method according to p. The method of claim 1, characterized in that the free end (6) of the neck portion (4) is laser-welded and the capsule is hermetically sealed.