DE447935C - Device for filling ampoules - Google Patents

Description

Device for filling ampoules. The filling is precisely measured Amounts of liquid, especially in ampoules, has so far mainly been done by two different methods. One is based on being the liquid lets flow from a high-lying vessel into the measuring vessel from below and, as soon as the mark is reached, the flow is interrupted by hand, whereupon the measured Amount is drained down into an ampoule. This method leaves an automatic or machine work at all, since the filling of the measuring vessel and the sudden closing of the tap is done by eye. The second method is based on the fact that either the liquid is supplied directly by means of a pump according to Art the syringe is removed from the container and injected into the ampoule or that the pump is connected to an all-round closed, through a downpipe with a non-return valve connected to the liquid container in connection with the measuring vessel and then by pulling back the pump piston a stroke volume corresponding to the piston Amount of air is sucked out of the measuring vessel, so that in the same degree the liquid can enter the measuring vessel through the non-return valve. By pushing again of the piston in its first position is then the measured liquid through a second valve located in the measuring vessel pushed out so that it is in the ampoule can flow in. This method is mainly characterized by two features: firstly, sucking in the liquid by sucking out a volume to be measured corresponding amount of air from the measuring vessel and the resulting entry of the liquid in the latter, secondly, the expulsion of the sucked liquid with exactly the same Air volume. The method has the disadvantage that the accuracy of the measurement depends on the more or less great tightness of the piston depends, and that when expelling there is only just enough air available for the measured amount in the ampoule, to push the liquid through the valve so that in the line piece between Valve and ampoule leave some of the liquid behind, making the dosage inaccurate can be.

The method presented by the invention differs from the above mainly by the following points: Firstly, the measuring vessel from the reservoir using the law of communicating tubes filled, and secondly, the measured amount of liquid is poured into the ampoule the compressed air taken from a reservoir is pressed, which in excess, independently of the measured amount of liquid can be used.

On the one hand, this method allows very precise dosing of what is to be filled Liquid, because it adjusts itself at the right height, and the outflow channel can be purely blown empty by subsequent blowing through of air, so that no Liquid remains; on the other hand, it allows for those closed with rubber Injection ampoules not just the liquid using one Bring a hollow needle into the ampoule to pierce the rubber stopper, but instead also add a sufficient amount of compressed air to keep the drug in the To drive the injection into the body tissue by means of this overpressure.

The arrangement of the filling device is as follows: A calibrated measuring vessel stands with by means of a communicating tube that can be closed by a valve a storage vessel of large liquid surface in connection, such that the level in the storage vessel the measuring vessel with the valve open exactly up to the measuring mark fills. The measuring vessel also carries an outlet valve for the liquid and the subsequent compressed air as well as a pressure admission valve and an auxiliary valve for the Depressurization. These valves can be operated individually by hand or automatically or by compressed air be operated. Several valves can also be coupled to one another, see above that they can only be operated at the same time.

The sequence of operations is as follows: When closed Pressure admission and liquid outlet valve and open auxiliary valve for pressure relief the inlet valve for the liquid is opened so that the measuring vessel is up to the calibration mark with liquid. Then the liquid inlet valve is closed and the pressure-admitting valve is opened, and the auxiliary valve for the pressure-releasing valve is also closed and then the outlet valve for the liquid is opened. The liquid flows now off, completely, because the, subsequent compressed air the outlet channel blows empty down to the last drop. Now the pressure admission valve and the The outlet valve for the liquid is closed and the auxiliary valve for the pressure outlet opened, whereupon the process begins again.

The outlet valve for the liquid and the subsequent one is expedient Compressed air is rigidly coupled to the auxiliary valve for pressure relief, so that always one valve is open when the other is closed. It is enough now to operate the auxiliary valve for the pressure relief alone; the outlet valve for the Liquid then inevitably goes with it. It is also advantageous to the auxiliary valve a larger valve area than the liquid outlet valve for the pressure relief so that when compressed air enters, the internal overpressure in the measuring vessel closes by itself and then inevitably, as already mentioned, the outlet valve opens. With this arrangement, only the liquid inlet and the Pressure inlet valve to be controlled manually or by lever as required; the two others Valves then work automatically.

The constant filling of the measuring vessel up to the calibration mark is causes by lifting the storage container evenly or jerkily by as much, as the liquid level drops as a result of the respective withdrawal. This lifting can be done either by hand, for example by turning a handwheel with a screw, or automatically or done partly by hand, partly automatically.

The amount to be filled in each case can be changed by while maintaining the position of the storage vessel, raise or lower the measuring vessel is made so that, since the liquid level in the storage vessel is its altitude has retained, the measuring vessel fills up more or less.

In the drawing is an embodiment of the invention for filling an open ampoule, for example.

The calibrated measuring vessel A is connected to the storage vessel C, which is open at the top, by means of a communicating tube B. This is located in the communicating tube B or on the vessel A by hand or by means of a plunger D. actuating liquid inlet valve E. Located on vessel A. There is also the liquid outlet valve F, which is rigidly connected to the auxiliary valve G for pressure relief by means of a linkage, so that one or the other valve is always open. The valve G has a larger valve area than the valve F. Furthermore, the vessel A still carries a compressed air inlet valve H, which through. a plunger I can be operated. The measuring vessel A is drawn out at the bottom into a fine point which extends into the opening of the ampoule K placed under the measuring vessel. The storage vessel C is supported by a fixed frame. rotatably mounted screw L, which can be operated in a known manner by a handwheel or by a mechanism. The actuation of the screw causes the vessel C to be continuously raised and thus readjusts the surface of the liquid in the vessel C, which is falling due to consumption, to a constant height.

The filling process is as follows: With valves F and closed H and with valve G coupled to valve F open, becomes the liquid inlet valve .E open. The liquid flows into the measuring vessel and conforms to the law the communicating tubes to the desired height. Now the valve is E closed and the compressed air inlet valve H opened. The incoming compressed air beats through the resulting overpressure in the vessel and as a result the larger valve area of the valve G compared to the valve F, the auxiliary valve G to and thus automatically opens the outlet valve F. The compressed air now drives the Liquid into the ampoule placed under the discharge opening h and then flows even after, by blowing the outflow channel completely empty, so that no liquid remains and an exact dosage takes place. The compressed air inlet valve is now H closed, the overpressure in vessel A can escape through the discharge opening, and the pair of valves GF falls through, since there is no longer any internal overpressure its own weight down; here the valve F falls on its seat and closes while valve G is open. Then the process begins by opening the Admission valve E again.

Instead of those shown in the example, others can of course also be used Shapes for the idea of the invention can be chosen, the valves can also through The ram can be moved by machine in a known manner, as can readjustment the liquid level in the storage vessel can be done automatically.

Should an injection ampoule with a hollow needle be used instead of the open ampoule and rubber seal are filled, so the outflow channel of the measuring vessel A fitted with a hollow needle that pierced the rubber stopper of the ampoule so that both the ampoule fills with liquid and also as required a certain amount of compressed air can be brought into the ampoule, which is sufficient to to drive the contents of the latter through the cannula into the body tissue when in use.

Claims (5)

PATEN TANSPIECE: i. Device for filling ampoules, characterized in that a measuring vessel which is calibrated for the fill quantity in question and provided with suitable valves or taps for inlet and outlet of the liquid and for compressed air inlet and outlet contains the liquid to be distributed and ends for the purpose of suitable regulation of its Liquid level adjustable storage vessel with a large liquid surface is connected by a movable communicating tube in such a way that this connection, after the adjustment of the liquid level in the measuring vessel to the height corresponding to the liquid surface in the storage vessel has taken place automatically by actuating the valves or taps, by hand or by machine interrupted, the compressed air is admitted and the outlet is released, so that the ampoule placed under the discharge opening is filled. 2. Device according to claim i, characterized in that that for measuring the liquid serving calibrated measuring vessel (A) each with a liquid inlet valve (E) and a Compressed air inlet valve (H) and an outlet valve (F) for liquid and compressed air and an auxiliary valve (G) is provided for releasing the pressure, the latter . Is actuated by the entering or exiting compressed air and, for example with the outlet valve (F), which expediently has a smaller valve area, for Liquid and compressed air can be rigidly coupled, so that the incoming compressed air the auxiliary valve (G) slams and thereby opens the outlet valve (F) at the same time, whereupon liquid and compressed air flow out. 3. Device according to claim i and 2, characterized in that the liquid level of the measuring vessel by means of Keeping the communicating tube filling storage vessel always at the same height lets that the same means of an attached underneath, stored in a rack After each removal, the screw can be raised until the surface of the liquid is reached returns to its original altitude. Procedure for using the facility according to claims i to 3, characterized in that when filling an open ampoule the liquid is driven into the ampoule by compressed air and no matter how much compressed air is driven so that the channel is blown empty from the measuring vessel to the ampoule, so that no liquid remains in it and an accurate dosage is achieved will. 5. Device according to claim i to 3, characterized in that for the purpose of filling an injection ampoule provided with a hollow needle and rubber seal of the measuring vessel carries a hollow needle which, pierced through the rubber stopper of the ampoule, not only allows the liquid to enter the latter, but also so much The addition of compressed air is permitted as is sufficient to use the injection ampoule to drive their contents through the hollow needle into the body tissue.