DE2306518B2 - Arrangement for measuring the pressure of liquids in living objects - Google Patents

Description

45

The invention relates to an arrangement according to the preamble of claim 1.

An arrangement of this type, which however has no calibration means, is described in DE-OS 19 26 324 ben. In this arrangement, the individual switching positions of the switching means are not defined, so that the Operation is difficult. Furthermore, by penetrating the mostly salty liquids into the electrical system malfunctions occur.

In DE-GM 18 94 765 is an electrical rotary switch described, which has a centrally rotatably arranged U-shaped armature magnet, which a A plurality of magnetic contacts arranged in the periphery are actuated. This DE-GM does not deal with the activation of an electrical switch and the simultaneous mechanical actuation of a valve by the same control element in an arrangement of the type mentioned above.

The invention is based on the ^{object of combining electrical switching means with the valve unit in an h5} arrangement of the type mentioned in such a way that no liquid can penetrate the switches and at the same time they only respond in an exact angular position of the valve unit.

According to the invention, this object is achieved by the features of the characterizing part of claim 1.

An embodiment of the invention in more detail is shown in the drawings and will described in more detail below. It shows

Fig. 1 is a schematic representation of a blood pressure measuring arrangement according to the invention,

F i g. 2 shows a cross section through the control device in the arrangement according to FIG. 1 and

3 shows the control device according to FIG. 2 in one View from above.

According to FIG. 1, the arrangement for measuring the blood pressure of a patient 1 consists of a valve unit 2 with four connections 3 to 6, a mechanical-electrical pressure transducer 7 and a measuring device 8. The Valve unit 2, the connecting tubes 9 and 10, which connect the vascular system of the patient 1 with the pressure transducer 7 connect, and part of the pressure transducer 7 are in a known manner with a physiological saline solution filled.

By actuating a control member arranged on the valve unit 2 and described in more detail in FIG 11, a connection between the connection 5 and in each case one after the other the connections 4, 3 and 6 can be produced.

To avoid za that an incorrect measured value is displayed, the measuring device 8, before a Blood pressure can be measured in patient 1, a signal through the pressure transducer 7 for zero adjustment which corresponds to the zero pressure. Another signal must be fed in for calibration, the corresponds to the reference pressure. For this purpose, by turning the control member 11, a connection between the Connection 4 and the connection 5 and thus a connection between the connection 4 and the Pressure transducer 7 made. The connection 4 is only through the membrane 12 from the surrounding atmosphere separated. So that the measuring device 8 is fed through the pressure transducer 7, an electrical signal which corresponds to atmospheric pressure and thus zero pressure. Simultaneously with the manufacture of the hydraulic connection is the electrical activation of the measuring device. This is also done by The control element 11 of the switch 14, which is arranged in the switch housing 13 and which controls the lines 15 and 16 connects with each other and thus the measuring device 8 switches to automatic zero adjustment.

By further turning the control member U towards connection 6, the previous hydraulic and electrical connection interrupted and a new connection between the terminal 6 and the Pressure transducer 7 made. This connection is via the connecting hose 17 with the reference pressure transducer 18 connected, which the pressure transducer 7 now supplies a reference pressure. The pressure transducer generates thereupon, in a known manner, an electrical signal of a corresponding magnitude, which is fed to the measuring device 8 will. At the same time, the second switch 19, which is arranged in the switch housing 13, is actuated by the control member 11 actuated, which connects the lines 15 and 20 together and thus the measuring device on automatic Toggles oak.

After the zero adjustment and calibration of the measuring device 8 has been carried out in the manner described have been, by further turning the control member 11 of the patient 1 via the connection 3 and

the connecting tubes 9, 10 are connected to the pressure transducer 7 and a blood pressure measurement can take place.

According to Fig. 2, the switches 14 and 19 are arranged in the switch housing 13 in angular positions which correspond to those of the hydraulic connections 4 and 6 of the valve unit 2. The control member 11 is on the axis 22 of the control member 11 protruding through the housing 13 is rotatably pushed on. the Lines 15, 16 and 20, which are connected to the switches 14 and 19 and lead to the measuring device 8, are combined to form cable 23. The two switches 14 and 19, together with those in the housing 13 Parts of the lines 15, 16 and 20 are cast in cast resin 24. The switch housing 13 is not by one The rotary lock shown is connected to the valve unit 2. Between the housing 13 and the Valve unit 2, a sealing sleeve 25 is arranged, which avoids in connection with the casting resin 24 that Saline solution in the switch housing 13, ingt.

/ n Fig. 3 it can be seen that in the control member f 1 of Bar magnet 26 is arranged. The control member 11 is, as already described, designed as a rotating part and has a firmly connected to it, protruding radially beyond its circumference slider 27 on the End face 28 of switch housing 13, which is designed as a sliding surface, rests. The slider 27 is in one Angle of 45 ° to the bar magnet 26 and to the connections 3, 4 and 6 arranged. The end face 28 of the switch housing 13 has recesses 29 for the locking of the slider 27, which by the force of Spring 21 (FIG. 2) rests under pressure on the end face 28 of the switch housing 13. When the slider engages 27 the bar magnet 26 is exactly in front of one of the connections 3, 4 or 6. If the bar magnet for example is exactly in front of the connection 4, which is provided for the zero adjustment of the measuring device 8, the magnetic field reaches the switch 14 and actuates it. A corresponding electrical connection is made produced between the valve unit 2 and the measuring device 8. As soon as the control member 11 is out of the grid recess 29 is lifted out, the magnetic field is between the bar magnet 26 and your switch 14 due to the distance so weakened that the switch turns off again. When the control member is around Is rotated 180 °, the slider 27 engages in the recess 29, so that the bar magnet 26 is exactly forward the switch 19 of the connection 6, which is connected to the reference pressure transducer via the connecting hose 17 18 is connected. The switch 19 is switched on and off, as previously described, by the Magnetic field of the bar magnet 26. The magnetic field has such a shape and strength that a connection between the pressure transducer 7 and the connections 4 and 6, which are connected one after the other is established before the switches 14 and 19 are switched on and that these are switched off, before a new position is reached. This is important because the measuring device receives the Pressure sensor 7 generated signal is to be supplied before switching to the corresponding switch position. To measure the blood pressure of the patient 1, the control member 11 is rotated until the bar magnet 26 is exactly in front the connection 3 stands. In this position of the control member 11 is the patient 1 with the pressure transducer 7 connected and a measurement can be made in a known manner. The magnet 26 has none in this position Function because no switch is assigned to connection 3.

1 sheet of drawings

Claims (2)

Patent claims: 1. Arrangement for measuring the pressure of liquids in living objects, consisting of a pressure transducer, which is hydraulically connected to the liquid to be measured and the to converts measuring pressure into electrical signals and a measuring device for display and / or Register feeds, the means of switching to automatic zeroing and automatic Contains oaks, as well as from one connected to the pressure transducer, with the help of a control element switchable valve unit, which the pressure transducer depending on the respective position of the '5 Control element alternately the pressure to be measured, a zero pressure for zero adjustment and if necessary, supplies a reference pressure for calibration, identified by a with the Valve unit (2) connected switching device, which consists of a body (13) and a with the as Disc-shaped control member (11) connected bar magnet (26), the field of which is radially is directed outside, and the body (13) magnetically responsive, moisture-proof encapsulated switch (14,19), which via lines (15,16,20) with the measuring device (8) are connected, and that the control member (11) protrudes radially beyond its circumference Has sliders (27) and the end face of the body (13) as a sliding surface (28) for the *> Slider (27) is used that also the sliding surface (28) in the individual switch positions "oak" and »Zero adjustment« recesses (29) for engaging the sliding pieces (27) under spring or gravity which are dimensioned so that the magnetic field of the bar magnet (26) only when the control member is locked the respective switch (14, 19) reached and thus causes the means for automatic Zero adjustment and for automatic calibration of the measuring device (8). « 2. Arrangement according to claim 1, characterized in that the switching devices (14,19) in a Insulating material (24) are cast.