DE1773751C3 - Device for measuring the flow strength of a liquid - Google Patents

Description

7a-V

IO

20th

35

The invention relates to a device according to the preamble of the main claim. One Such a device is known from FR-PS 14 52 215. The flow rate of the first liquid is proportional to the flow strength of the auxiliary liquid and the quotient of the temperature differences, according to the form: ':

45

where Γι is the temperature of the auxiliary liquid, Ti is the temperature of the mixture, Ti is the temperature of the first liquid, D is the flow strength and d is the known flow strength of the auxiliary liquid.

The present invention is based on the object of a device of the type mentioned at the beginning Way of increasing the measurement accuracy. This task is carried out by the characterizing part of the main claim specified measures resolved. The measurement accuracy is achieved by improving the homogeneity of the Liquid mixture increased.

In an advantageous embodiment of the invention, the body contains at least one magnet in the Inside of the flexible tube generated by an outside of the circulation channel of the first liquid magnetic alternating field is operated.

The invention is explained in more detail with reference to the drawing, which shows a schematic section through the Represents device according to the invention.

A vessel 2 or a circulation channel is flowed through by a first liquid, e.g. blood, and the The direction of flow is indicated by the arrow F.

A metal cannula 3 is inserted with its lower end 4 into the vessel 2. A flexible tube 5 from Plastic is inserted into the channels 3, inserted into their interior and after the introduction of the tube pushed in further. When the tube 5 reaches the inner wall of the vessel 2, it bends and turns almost in the direction of the axis of the vessel. The cannula 3 serves as an injection tube with the serum 6 or the Auxiliary liquid that is injected when the length of the tube 5 in the interior of the vessel is sufficient. The cannula 3 is inserted in such a way that the tube 5 is in the blood flow direction (direction of arrow F) shifts, whereby the opening 7 of the tube 5, through which a quantity of the blood-serum mixture is taken up downstream of the opening of the end 4 of the Cannula lies.

According to the invention, there is an oscillating body 8, in particular a magnet, at the end of the tube 5 In a preferred embodiment according to the figure, various small magnets are such provided that the flexibility of the tube 5 is maintained

A magnetic circuit consisting of a soft iron core is provided for activating the oscillating body 8 16 with a coil 15 which is excited by an alternator 17, and outside of the patient is attached in such a way that an alternating magnetic field around the end of the tube 5 is generated will. In this way, the tube is shaken, causing the blood to mix and the serum is conveyed in such a way that an almost constant, average concentration is produced

The required temperature differences are measured by means of two units of two each other opposite temperature-sensitive elements 9 to 10 or 11a to 12, each with one Voltmeter 13 and 14 are connected.

The voltmeter 13 supplies information relating to the temperature difference Ti - Ts. The voltmeter 14 supplies information relating to the temperature difference Τ2-Γ3. With these temperature differences, the following expression is valid for determining the flow velocity D to be determined:

D = d

[T ₂ - 7, -17; -T,)]
7; » - T ₂

The information received, as well as the information regarding serum intake from one, did not The current meter shown can be fed to a calculating machine instead of the voltage meter, which carries out this correction.

In the embodiment shown, the thermocouple Ha for measuring the temperature of the mixture Ti is attached to the end of the tube 5; the required connection 11 lies in the interior of the pipe 5 made of plastic, since the heat exchange takes place through the wall.

The temperature sensitive elements 10 and 12 are usually housed in the anus.

Modifications to the embodiment described are possible. In particular, the cannula 3 can be used as Absorption tube and the flexible tube 5 can be designed as an injection tube.

1 sheet of drawings

Claims (2)

Patent claims: , 1. Device for measuring the flow strength of a liquid (first liquid) flowing through a Channel flows from, with two nearly coaxial tubes inserted into the channel for measurement of which the outer is designed as a cannula and the inner as a flexible tube, and one of which, the injection tube, for introducing an auxiliary liquid which can be mixed with the liquid in the channel serves, and the other, the absorption tube, to receive part of the mixture of both Liquids is used, with means for measuring the flow strength of the auxiliary liquid as well as with Means for measuring the temperature differences in the first liquid, in the auxiliary liquid and contain temperature-sensitive elements arranged in the area of the liquid mixture, according to patent 1573047, characterized in, that a vibrating body (8) at the end of the flexible tube (5) in the vicinity of the outflow opening of the injection tube and - at the measurement - is arranged in the channel (2) 2. Apparatus according to claim 1, characterized in that the oscillating body (8) at least contains a magnet inside the flexible tube (5), which is from an outside of the channel of the first fluid generated magnetic alternating field is excited.