DE3837927A1 - Flow indicator - Google Patents

Abstract

The invention relates to a flow indicator in the drip chamber of medical transfusion systems. At flow quantities above 10 millilitres per minute, the flow quantity can no longer be determined by the usual drop rate, because a continuous stream of the medium forms in the inlet of the drip chamber. By means of an impact plate mounted on a spring and a scale applied to the transparent wall of the drip chamber, the volume flow of the flowing medium can be made visible and indicated to an order of magnitude, in that the stream directed onto the impact plate presses this downwards in the chamber against the spring force. The flow occurs via the gap between the outer diameter of the impact plate and the chamber wall, which is so dimensioned that a deformation of the chamber wall during air removal from the drip chamber does not lead to jamming of the impact plate. The impact plate is guided in the longitudinal direction by means of a pin which is fixedly inserted in the impact plate or in the counter-disc.

Description

The invention relates to a flow indicator for Medical device with drip chamber Application.

With volume flows over 10 milliliters per minute, in Drip chambers the volume flow no longer above the drip rate be displayed and determined because the transfer liquid flows into the drip chamber in the jet. Finding one Flow and determining the order of magnitude is difficult possible. In some areas of medicine (e.g. organ flushing) are volume flows of up to more than 1 liter per minute in use.

For precise dosing of infusion amounts are high precise infusion pumps used. The main part the clinic routine are transfer systems. Transfer systems are used as one-off parts in very large Quantity produced and used. They consist in Essentially from a drip chamber with a piercing spike into the storage bottle, a transfer hose and one Coupling piece to the catheter. The one for transfer systems usable components and processes are extreme Cost thinking bound. An easy way to party setting and determining the flow rate is measuring the Drip rate in a drip chamber. With volume flows above 10 milliliters per minute (more than 200 drops per minute) the transfer medium forms a full one in the drip chamber Beam that is difficult to see and no information represents the flow rate.

No system is known which is the simplest to recognize the flow and the approximate Be adjustment of the volume flow in transfer systems for use is coming.

The invention is based, an inexpensive task Element for recognizing a flow and the approximate ones To determine the flow rate in transfer systems.  

The object is achieved in that in the Drip chamber a baffle plate is used, which by the force of the volume flow acting in the direction of flow is pressed down and by a return spring in one height corresponding to the volume flow into the equilibrium of forces is coming. The one that is clearly visible in the transparent drip chamber Baffle plate shows the flow on an assigned scale the magnitude of the volume flow can be read. The flow takes place in the gap between the outer diameter the baffle plate and the inner diameter of the drip chamber Wall instead.

The baffle plate is ge in the longitudinal direction by a mandrel leads, which either with the baffle plate or with the Counter washer is firmly connected. To avoid one Closure by sitting the baffle plate on the counter disc is a spacer sleeve on the baffle plate and / or the Counter disc attached.

The baffle plate and counter plate are fixed with the compression spring connected. The baffle plate diameter is chosen so that a deformation of the chamber wall when venting the system does not cause the baffle plate to jam in the display stroke.

With the flow indicator described it is possible without Significant expense Volume flows over 10 milliliters per minute and with sufficient accuracy for quantify certain applications.

Two embodiments of the invention are in the drawing are shown and are described in more detail below.

Show it

Fig. 1 drip chamber consisting of lower part 1 and the cover 2. The counter plate 3 , the compression spring 4 and the baffle plate 5 are inserted into the drip chamber.

The jet of the volume flow 6 is directed onto the baffle plate 5 and presses it until the forces equilibrium with the compression spring 4 in the drip chamber in a position 5 down.

The volume flow is derived through the gap 7 between the baffle plate and the chamber wall and openings 8 in the counter disc 3 .

The baffle plate 5 is guided in the longitudinal direction on a rod 9 which is fastened in the counter disc 3 .

Fig. 2 drip chamber, like Fig. 1, but the guide rod 9 is firmly connected to the baffle plate 5 and is transferred during the measuring stroke of the baffle plate 5 in the position 5 'to position 9 ' at the exit of the drip chamber.

Fig. 3 drip chamber, as in Fig. 1 and 2, with scale 10 on the transparent chamber wall. The scale is assigned to the calibrated measuring stroke of the baffle plate 5 .

Claims (10)

1. Flow indicator, characterized in that the free jet of a volume flow is directed onto a baffle plate in a chamber. 2. Flow indicator according to claim 1, characterized in that the baffle plate is mounted on a compression spring. 3. Flow indicator according to claims 1 and 2, characterized records that the baffle plate in the longitudinal direction by a Rod is guided and centered. 4. Flow indicator according to claims 1 to 3, characterized characterized in that on the transparent chamber wall Scale is applied. 5. Flow indicator according to claims 1 to 4, characterized characterized in that the baffle plate from the front savings for the flow is provided. 6. Flow indicator according to claims 1 to 4, characterized characterized in that the baffle plate with recesses on the circumference is provided for the flow. 7. flow indicator according to claims 1 to 4, characterized characterized in that the baffle plate has a smaller exterior has diameter than the inner diameter of the chamber and the flow takes place through an annular gap. 8. Flow indicator according to claims 1 and 2, characterized characterized in that the baffle plate in the chamber inner diameter is led. 9. Flow indicator according to claims 1 to 8, characterized characterized in that the baffle plate and / or the counter disc are firmly connected to the compression spring. 10. Flow indicator according to claims 1 to 9, characterized characterized in that the guide rod is fixed to the impact plate or the counter plate is connected.