DE2334252C3 - Pressure receptor - Google Patents

Description

(2) separates.

3. Pressure receptor according to claim 1 or 2, characterized in that the generators of the Truncated cone an angle between 2 and 20 °,

z. B. 5 °, form this cone with the axis of symmetry.

4. Pressure receptor according to claim 1 or 2, characterized in that the generatrix of the conical Body (3) represent an angle between 2 and 20 °, e.g. 5 ", with the axis of symmetry of the truncated cone.

5. pressure receptor according to claim 1 or 2, characterized in that the space of the conical body (3) compared to the smaller end face of the cone a size between 0.5 and 2 mm, e.g. B. 1.2 mm.

6. Pressure receptor according to claim 1, characterized in that the rounded surface (5) is spherical is trained.

Well-known print replicas. preferably for the pressure of body fluids, are with several Disadvantages. Thus, an air-free filling of the receptor with a coupling fluid requires that either the assembly of the receptor in the coupling fluid takes place or that the filling of the receptor takes place takes place with measures to be carried out at the same time, such a measure / .. B. consist in it can tap the receptor to remove air bubbles. The presence of air (bubbles) in the Coupling liquid brings with it falsified measured values and can with medical use of the receptor endanger the patient. Furthermore, the previously known pressure receptors must in general removed from their holders during filling and unwinding. At pressure receptors for Measurement of intravascular pressure, especially those suitable for medical purposes in addition, to demand high patient safety from the electrical point of view, without the giver becoming susceptible to interference as a result. About it In addition, it should be possible to sterilize the pressure receptors in the autoclave.

The object of the invention specified in claim 1 is to provide a pressure receptor that increases Meßsi'cherheit offers the use of a simple method for air-free filling and rinsing the Pressure receptor allows that is electrically patient-safe without being particularly sensitive to interference and the Is autoclavable. . .

The following is an embodiment of the invention explained on the basis of two figures. It shows FIG. 1 the pressure receptor from below and Fig. 2 shows a section through the receptor. The pressure-sensing part of the receptor is no further shown.

Advantageous further developments of the invention are described in the subclaims.

In the embodiment shown in the figure the pressure chamber 2 is arranged in a substantially cylindrical body 1. The pressure space is created by a concentric frustoconical recess provided in the body 1. In the printing room a conical body 3 is arranged, which ends with a spherical surface 5 at its narrower part The conical body protrudes with its narrower part into the further part of the truncated cone. the Side walls of the recess are denoted by 6.

The channels 10 end at the smaller base of the truncated cone recess. A membrane 8 is arranged on the lower boundary surface of the body 1 and bacteriologically and electrically separates the pressure chamber 2 at its large base from the pressure-sensing part 11, not shown ß, which define the slope of the truncated cone or the conical body 3, are between 2 and 20 °, z. B. 5 °, while the distance ό - the difference between the radii of the small basic dimension of the truncated cone and the large basic dimension of the conical body - values between 0.5 and 2 mm. z. B. 1.2 mm, assumes. The channels 10 serve on the one hand, for. B. the connection of catheters or cannulas which are inserted into the body of a patient, wherein the pressure chamber 2 is filled with body fluid and on the other hand the connection of an infusion bottle and / or a rinsing device for the receptor. The above-mentioned hydrodynamic design of the pressure space now allows the pressure receptor to be filled with fluid easily and without air and to be flushed out of the current body fluid without the pressure receptor having to be removed from its holder.

The air-free filling is brought about by the fact that the distance ό has a size selected with regard to the size of the air bubbles arising in the pressure space. The size of the air bubbles is determined by the material in the walls of the print room. The distance δ between the spherical surface and the membrane is chosen so that air bubbles that occur get into the annular gap between the two conical walls of the pressure chamber near the duct openings, where they can, for. B. be taken along by the flushing liquid and thus removed from the pressure chamber. The air bubbles of significantly small size that may be pressed in in the pressure chamber cannot reach the

Walls of the pressure space adhere, but will move away from the pressure space through the annular gap. The flushing of the space is brought about by the fact that the conical body 3 forms a vortex which causes the rinsing liquid wedge that has flowed in. Due to this vortex formation, the thicker liquid, z. B. Blood, removed from the walls of the room and the remaining parts of the pressure chamber.

The use of membrane 8 implies that the liquid part of the pressure transducer 2, 10, which z. B. is in contact with a patient, is electrically isolated from the pressure-sensing electrical part, which implies that the pressure receptor is electrically patient-safe. The use of a separating The membrane also means that the liquid part can be autoclaved.

1 sheet of drawings

Claims (2)

Claims: 23,252 1. Pressure receptor for the pressure measurement of liquids, the one pressure chamber (2) and one pressure-sensing Part (11), characterized in that the pressure space (2) is like a truncated cone is formed in which a conical body with respect to the truncated cone in the opposite direction and is arranged symmetrically that the conical body with a rounded Surface (5) on its narrower part is completed that the surface of the conical body is arranged at a radial distance from the small base of the truncated cone and the conical body with its rounded end face at an axial distance from the larger cone-shaped surface is arranged that channels (10), which are connected to the pressure chamber (2), on the large Base (7) of the conical body (3) run out and that on the large base of the truncated cone a separating pressure-transmitting element (8) between the pressure-sensing part (11) and the pressure chamber (2) is arranged. 2. Pressure receptor according to claim 1, characterized in that * 5 indicates that the separating organ is a membrane (8), bacteriologically and electrically the pressure-sensing part (11) of the pressure chamber