DE4123969C2 - Device for influencing a fluid pressure prevailing in a flow-through line - Google Patents

Description

The invention relates to a device for influencing a flowed through, elastic conduit prevailing fluid pressure.

Devices of the type in question can be used in a wide variety of ways Apply areas. In principle, such a device can be used the prevailing fluid pressure within an elastic pipe system are at least partially reduced or increased, with the Fluid velocity is affected. Devices in question standing type could, for example, for dosing a liquid chemical Find use. Basically, this would allow the flow rate affect fluid flow media in piping systems.

For the purpose of better understanding, the device in question is and the problems that arise there, using the example of influencing only of intravascular blood pressure. So far, namely, for experimental purposes change in blood pressure in the blood vessels or veins, especially in the frame from animal experiments, clips or clips or the like to the blood vessel clamped, whereby the effective flow cross-section is reduced. In the area after the clip or the clip there is a lower blood pressure.

However, if you want to bring about a rapid change in blood pressure or blood pressure even regulate to certain physical situations or appearances, so the known quasi-rigid device is not very suitable.

Furthermore, there are complex mechanisms for actuating one Flow cross-section changing mechanics known, but because of their native inertia are in any case only little suitable when it comes to a quickly and precisely influencing blood pressure.

DE 31 33 410 C2 describes a blood pressure monitor with an inflatable Cuff described. For the measuring process the cuff is not in inflated wrapped around a patient's arm and then inflated via air lines connected to a pressure source. The practice Cuff indirectly applied pressure to all blood vessels in the patient's arm from what leads to a restriction of the blood flow in the blood vessels. In the cuff is  a microphone is integrated, which signals according to the prevailing in an artery Pressure supplies.

DE-PS 7 01 899 deals exclusively with the sealing of gas Bringer and supply lines, the seal using an inflatable Bag is made with a hose and a shut-off valve with one Pressgas filled container is connected.

In the publication SAMAL, Erwin: Grundriß der practical Regelstechnik, 16. Munich edition: R. Oldenbourg-Verl., 1990, p. 172 .-- ISBN 3-486-21274-5 becomes a Pressure regulator with pneumatic auxiliary energy and rigid feedback described. From the publication OPPELT, Winfried: Small manual technical re gel operations, 4th edition Weinheim / Bergstr. Verl. Chemie, 1964, p. 480 is the arrangement voltage known in front of and behind a pressure control device.

EP 0 224 252 A2 describes a catheter with one inside ordered, capacitive working pressure sensor. This catheter is used in conjunction with used a blood pressure monitor. For the actual measuring process, use the catheter filled with saline is inserted into a blood vessel on the patient's arm.

Subject of the registered documents of the German utility model DE- GM 72 13 492 is a hose valve, consisting of a housing, one in the Housing used tubular body and flexible control bodies that between the hose body and the housing are inserted. The hose valve serves here as a shut-off device, d. H. it can either be in the open state, so that a Flow medium can pass the hose valve unhindered, or it can in closed state so that the passage for the flow medium Is blocked. For switching the hose valve from open to closed NEN, a control pressure medium is let into the control body, so that it inflate and the tube body between itself and the housing together jam.  

Just like the hose valve described in DE-GM 72 13 492, this requires Pinch valve, which is the subject of DE 35 38 465 A1, a housing that here is in the form of a valve block.

The invention is based on the object, a device for influencing egg fluid pressure prevailing in a flowed through elastic line to design and develop so that with the simplest construction a direct Changing the line cross-section is possible, so that a quick, precise one position of the fluid pressure is possible.

The device according to the invention achieves the above object through the note Male of claim 1. Thereafter includes the device mentioned an elastic hose that can be placed tightly in a loop around the line the hose via an inlet valve from a pressure medium source with a pressure medium, is preferably pressurized with air and thereby constricts the line and wherein the pressure medium let into the hose can be discharged via an outlet valve is. The device mentioned at the outset further comprises at least one detector for Determination of the pressure prevailing in the line, the measured values of the Detector for regulating the fluid pressure on the inlet and outlet valve be fed back.

According to the invention it was first recognized that in the case of elastic lines Fluid pressure in a simple way by partial change in cross section can be increased or decreased. It has also been recognized that this cross Cut change with extremely simple design, namely by means of a the hose can be wound around the hose. Because if the Inflated tightly wrapped hose while stretching, ver the inner diameter of the loop formed by this hose narrows, so that the hose radially compresses the elastic line. This together pressure leads to the reduction in cross-section influencing the flow rate, so that in  Flow direction seen behind the reduction in cross-section, d. H. behind the nozzle thus formed, the fluid pressure is lowered. This causes the cross-sectional reduction Hose is supplied from a pressure medium source via an inlet valve ago pressurized with a pressure medium. It is about preferably compressed air. So that the cable cross-section again can be enlarged, the one embedded in the hose Compressed air can be discharged again. This is a separate end let valve provided. Consequently, actuation of the on lassventils - with closed exhaust valve - to a cross reduction of the line and an actuation of the off leads valve preferably with the inlet valve closed again to an enlargement of the line cross section.

In terms of very good responsiveness, it is of particular importance the advantage if the inlet valve from the pressure medium source always pressurized. Hence there is entry valve is always a sufficiently high pressure, which when opening the Inlet valve is passed into the hose. Hence is it is not necessary that the pressure builds up gradually is, but it becomes abrupt with the inlet valve open arise inside the hose. The pressure medium source can be advantageously carried out as a gas bottle. Hence in the operating state of the device according to the invention The valve of the gas bottle must always be open so that the gas and accordingly the gas pressure via a suitable line to the the inlet valve upstream of the hose. As well the pressure medium source could be a preferred one act electrically operated compressor or compressor. in the The operating state of the device according to the invention would have to be Compressor constantly generate pressure medium or compressed air, so that in this case too, before the inlet valve is closed the required operating pressure already exists.  

The inlet valve and possibly the outlet valve could be in further advantageously as an electrical or electromagnetic table valve. In particular, the use electromagnetic valves would have the great advantage that ex Extremely short opening and closing times can be achieved. This in turn increases the response speed of the fiction moderate device.

So that the influencing of the Fluid pressure can be determined or monitored, is at least one detector for determining the within the Line provided prevailing pressure. As part of a special ders advantageous embodiment of the Vorrich invention tion are two detectors for determining the within the Lei tion prevailing pressure provided, each with a detector in Direction of flow seen in front of and behind the hose is not. Consequently, with the inlet valve and exhaust valve closed, d. H. with a reduced cross cut the line, on the one hand before the cross-sectional rejuvenation supply increased pressure on the other hand in the flow direction after the cross-sectional taper reduced flow mit Detect oil pressure. The pressure difference between the two Detectors could be used as a measure of influencing the flow pressure and thus to regulate or regulate the flow medium pressure can be used. This will be discussed later pulled.

Each of the detectors can be on the outside of the line Outside wall can be arranged. It can be, for example act as a kind of strain gauge or the like. As well the detector could be located within the line where with the measured values via corresponding connections from the line would be led out. In such a case, the detec  gate in the sense of a miniaturized diaphragm pressure transducer be educated.

It has already been indicated previously that from the measured values of the Detector or the detectors derived signals in modulated ter and, if necessary, strengthened form to regulate the Fluid pressure on the inlet and / or outlet valve can be fed back. Thus, the invention includes device according to a control circuit for pressure-dependent actuation supply of the valves. Consequently, regardless of any Pressure fluctuations on the one hand in the line, on the other hand in the pressure medium source, an exact fluid pressure both Adjust before and after the hose.

Likewise, this could result from the pressures before and after Hose resulting pressure difference or Si derived therefrom gnale in modulated and possibly reinforced form Regulation of the fluid pressure at the inlet and / or Exhaust valve are fed back.

The hose itself is elastic and impermeable to pressure medium executed. In a particularly advantageous manner, he is at his free end closed. The free end can be glued welded or simply sewn with a thread, whereby even a certain fluid permeability or pressure with telleckage compensated by sufficient pressure medium delivery can be.

The hose is also around the line in the sense of a Loop around and define a specific one Loop inner diameter close to the line with connected to yourself. For this he could possibly use the same Fa the one that effects the end closure on its central part be tied or sewn on.  

It has already been mentioned in the introduction that it is the he device according to the invention in an advantageous manner to a front direction to influence the intravascular blood pressure. Accordingly, the intravascular device can be used with this device Blood pressure by constricting the corresponding blood vessel decrease or increase again when the reduction has taken place. At the elastic line can be, for example, an Ar act terie, so that with the device according to the invention arterial blood pressure can be influenced. In the case of such - medical - would use the hose for example in the body of a laboratory animal to be implanted by the Inlet valve incoming line and lead to the outlet valve Corresponding derivation would accordingly get out of the body leads. Likewise, on the one hand, the valves, on the other on the one hand a processor serving for control and even an mi niaturized gas cylinder can be implanted in the body, individual functions via a suitable remote control, d. H. would be activated by means of a transmitter and receiver.

There are now several ways to teach the present the present invention in an advantageous manner and white to train. For this purpose, on the one hand, to claim 1 subordinate claims, on the other hand to the subsequent Er purification of an embodiment of the invention based on the Reference drawing. In connection with the explanation of the preferred embodiment of the invention based on the Drawing are also generally preferred configurations and further training in teaching explained. In the drawing shows

Fig. 1 shows a schematic representation of an embodiment of the device according to the invention, wherein the elastic conduit is a blood vessel or an artery and

Fig. 2 is a schematic representation of the device of Fig. 1 with valves and pressure medium source.

Figs. 1 and 2 together show an embodiment of a device for influencing a processing in a flow-through Lei 1 prevailing fluid pressure. The line 1 is elastic.

According to the invention, an elastic hose 2 that can be placed around the line 1 is provided. The figures clearly show that the hose 2 engages around the line 1 and constricts when the hose 2 is inflated due to the reduction in the inner diameter of the loop formed by the hose 2 . Fig. 2 further shows schematically that the hose 2 can be opened by a pressure medium source 4 with compressed air via an inlet valve 3 . Furthermore, the pressure medium let into the hose 2 can be discharged via an outlet valve 5 . The pressure medium - if it is compressed air - can be easily discharged into the atmosphere.

If the valve of the Druckmit telquelle 4 is not shown in the figures, the inlet valve 3 is always pressurized by the pressure medium source 4 ago. With regard to special configurations of the pressure medium source 4 , reference is made to the introduction to the description. The same applies to the configuration of the inlet valve 3 and the exhaust valve 5 .

Fig. 2 further shows that to determine the pressure prevailing within line 1 , two detectors 6 , 7 are vorgese hen. One detector 6 is hen in the flow direction before the hose 2 , the other detector 7 is arranged after the hose 2 on the line 1 or on the outer wall of the line 1 . Likewise, the detectors 6 , 7 could be provided within the line 1 , in which case corresponding supply lines to the detectors would then have to extend through the wall of the line 1 .

With regard to the utilization or evaluation of the detected Signals to create a pressure control will also be on referred to the introduction to the description. A corresponding pro processor for data processing can be provided.

With regard to the design of the hose 2 , FIG. 2 at least indicates that the hose 2 is closed at its free end 8 . More specifically, the hose 2 is sewn or sewn with a thread 9 . Around the line 1 puts the hose 2 is connected to itself to form a loop, the same thread 9 being used to form the loop.

In conclusion, it should be noted that the core of the present ing invention - influencing one in a flow Line of prevailing fluid pressure - also with others Applications can be realized. The previously discussed embodiment Example serves only the exemplary description the teaching of the invention.

Claims (11)

1. Device for influencing a fluid pressure prevailing in a flowed through elastic line ( 1 ), with an elastic hose ( 2 ) that can be placed tightly in a loop around the line ( 1 ), the hose ( 2 ) via an inlet valve ( 3 ) from a pressure medium source ( 4 ) with a pressure medium, preferably compressed air, and thereby constricts the line ( 1 ) and the pressure medium let into the hose ( 2 ) can be discharged via an outlet valve ( 5 ), and with at least one detector ( 5 , 7 ) for determining the pressure prevailing in line ( 1 ), the measured values of the detector for regulating the fluid pressure being fed back to the inlet and outlet valves ( 3 , 5 ). 2. Device according to claim 1, characterized in that the inlet valve ( 3 ) from the pressure medium source ( 4 ) is always pressurized. 3. Apparatus according to claim 1 or 2, characterized in that the pressure medium source ( 4 ) is designed as a gas bottle. 4. Apparatus according to claim 1 or 2, characterized in that the pressure medium source ( 4 ) is designed as a preferably electrically operated compressor. 5. Device according to one of claims 1 to 4, characterized in that the inlet valve ( 3 ) or the outlet valve ( 5 ) can be actuated electrically, in particular electromagnetically. 6. Device according to one of claims 1 to 5, characterized in that two detectors ( 5 , 7 ) are provided for determining the pressure prevailing within the line ( 1 ) and that seen in the flow direction, one detector ( 6 ) in front and one each Detector ( 7 ) is arranged behind the hose ( 2 ). 7. Device according to one of claims 1 to 6, characterized in that the detector ( 6 , 7 ) outside the line ( 1 ) is arranged on the outer wall. 8. Device according to one of claims 1 to 7, characterized in that the detector ( 6 , 7 ) is arranged within the line ( 1 ) and that the measured values are passed out of the line ( 1 ) via corresponding connections. 9. Device according to one of claims 1 to 8, characterized in that the signals derived from the measured values of the detector ( 6 , 7 ) are modulated and possibly amplified ver. 10. Device according to one of claims 1 to 9, characterized in that the pressure difference seen in front of and behind the hose ( 2 ) in the flow direction for regulating the fluid pressure to the inlet and outlet valve ( 3 , 5 ) is fed back . 11. Device according to one of claims 1 to 10, characterized in that the hose ( 2 ) at its free end ( 8 ) closed, preferably sewn or sewn with a thread ( 9 ), laid around the line ( 1 ) and with connected to itself in a loop.