DE19542398C2 - Measuring arrangement for blood pressure measurement - Google Patents

Description

The invention is based on a measuring arrangement for blood pressure measurement as an essential part of a blood pressure measuring device, according to the preamble of claim 1.

Blood pressure measurements can be carried out using a wide variety of measuring methods be carried out. The most common method is that of indirect blood pressure measurement. Here, the blood pressure determined with an inflatable cuff, for example is placed around the upper arm. This cuff will be like this at first pumped up long until the arm lying inside the arm artery completely depressed and the flow of the Blood is interrupted and is no longer audible. To this At the time, the pulse on the hand can no longer be felt. By releasing the gas accumulated in the cuff at the same time the inside diameter of the man beautifully formed ring around the upper arm larger. That starts the arm artery to open again, the pulse noises become audible and leaves proportional to the pressure in the man cuff blood flow in my arm again. The one at that time point readable gas pressure one connected to the cuff The manometer corresponds to the systolic value of the blood pressure. With the further decrease in gas pressure, too the pulse rate is registered again by manual palpation will. The moment that the one with the pulse beat in time matching noises become significantly quieter or ver disappear, the diastolic blood pressure can be measured on the manometer will read.

With this type of blood pressure measurement, it is particularly important that at the measurement-critical times to determine the sy stolic as well as diastolic blood pressure the gas pressure in the Cuff can be continuously decreased or increased  in order to be able to determine these pressure values exactly. Furthermore it is for the exact optical detection of the determined blood pressure value important that the pointer of the display device of the manometer during reading not by slight Pressure fluctuations caused by the pumping process are jerky fluctuates around the measuring point.

The disadvantage is that the usual blood pressure measuring arrangement to meet the requirements listed above the double hose systems, which are very expensive to manufacture are to be equipped, in particular to protect the fine mechanics of the manometer no other major metrological Precautions become necessary.

DE-GM 69 22 324 discloses a manometer for measuring blood pressure known by means of a blood pressure cuff, in which a throttle tion of the air supply to the manometer membrane is provided to a jumping of the pointer of the manometer when inflating the To prevent blood pressure cuff. This arrangement with a Throttling is required because the monometer is directly on a Bellows is connected. Without throttling it would be a Be damage to the pressure gauge.

From DE-GM 17 01 266 is a measuring arrangement for blood pressure measurement solution known in which two hoses to connect one Pressure cuff with a hand pump or with a manometer are provided. These two hoses are separate from each other the provided.

Finally, from DE-OS 23 58 788 a blood pressure meter be knows in which an electrical signal line at a pressure hose is provided in a longitudinal guide.

The object of the invention is to provide a measuring arrangement for very precise display to get from blood pressure values fen, which is additionally characterized by a long service life distinguished.

The object is the subject of claim 1 solved.

The invention provides that instead of the previously used Double tube system uses a single tube rubber bag becomes. In the feeder to this one-tube rubber bag a capillary tube integrated, which the compressed air from the A hose rubber bag forwards to the measuring device.

The object of the invention has the advantage that a man equipped with a one-tube rubber bag cuff can be used to measure blood pressure.

Another advantage of the invention is the cost savings, which is a much cheaper design and production of a blood pressure monitor makes possible without that ver on the advantages of a double hose system must be waived.  

The object of the invention also has the advantage that overshoots and jerky pointer movements avoided and on by the indicator of the manometer Because of this in particular both their lifespan is clear extends the visual reading of the blood pressure values is facilitated.

A further development of the invention is characterized by the Advantage from that for coupling the one-hose system provided on the measuring device connector element ver is designed to be safe to use.

Additional advantageous developments of the subject of Invention are evident from the further subclaims.

The invention is based on following based on the Drawings of an embodiment explained in more detail.

Corresponding parts in the drawings are in the Figures marked with the same reference numerals.

Show it:

Fig. 1 shows a modular structure of an embodiment and

Fig. 2 shows an embodiment according to an embodiment of the invention.

The illustration in Fig. 1 shows a schematic, modu lar structure of a measuring arrangement, to an extent necessary for understanding the invention, intended for a blood pressure measuring device. This modular structure consists of a measuring device 1 , a path element 3 , a pump device 20 , two connecting elements 16 , 17 and a storage unit 19th In this measuring arrangement, a gas, preferably air, is pumped into the storage unit 19 by the pump device 20 via the path element 3 and the connecting element 17 . The path element 3 on the one hand conducts the gas into the connecting element 17 and, on the other hand, via a separate channel connection, the gas accumulated in the storage unit 19 into the measuring unit 1 The pump device 20 can be an electrically or manually operable unit. As a replacement for the pump device 20 , a gas or gas mixture that is already available in pressure containers would also be conceivable. The storage unit 19 can be, for example, a one-tube rubber bag which is integrated in a cuff. With the measuring unit 1 , a manometer, which is connected to the path element 3 , the pressure of the gas accumulated in the storage unit 19 (for example air) can be measured. To this end, the compressed gas is passed directly through as Dämp Fung element serving connecting element 16 from the storage unit 19 in the measuring unit. 1 A valve for releasing the air pumped into the storage element 19 is not explicitly shown in the embodiment variant shown. Usually, these valves are provided in the vicinity of the path element 3 or on the measuring unit 1 and can be controlled manually or electronically by means of feedback by registering the systolic or diastolic blood pressure.

In Fig. 2, one embodiment of the invention is illustrated. Via a pump device 20 , for example a hand pump device, air is pumped through a connection 2 of the path element 3 into a one-tube rubber bag 19 . Between the way element 3 and the one-tube rubber bag 19 , a plug element 11 is provided for better coupling or decoupling of both elements. This connector element 11 is connected on the aisle side by a material and / or force fit 6 a and 6 b to the output of the path element 3 . The plug element 11 has, because of the better connection and the unmistakability between the connecting channels 4 , 5 in the path element 3 , additionally two separate tubular connections 9 and 10 equipped with different diameters. These are inserted into the corresponding openings 4 and 5 at the exit of the path element 3 . By a provided on the jacket of the plug element 11 ring 6 c, both the insertion depth into the path element 3 and the connection with the connecting element 17 is limited. First, the air passes through the channel 5 in directional element 3 and tubes 10 of the plug element 11 into the storage element 19, the other is through the tube 9 and the corresponding thereto duct 4 forwards the accumulated in the storage element 19 air to the measuring unit 1 in waylet 3 . Between the plug element 11 and the path element 3 , a sealing element in the form of a sealing ring 8 is additionally inserted.

On the further side facing the storage element 19 of the plug element 11 , a double hose connection 16 , 17 or two-hose system connection is seen before. These hose connections have different diameters. The hose 16 that receives the compressed air is integrated in the hose 17 that forwards the air to the storage element 19 . The double hose connection on the connector element 11 is designed such that the connecting element of the male connecting member 11 can be inserted 16 in a tubular extension 14 and the supplied air forwarding hose 17 is pushed over the outer sheath 12 of the connector element. 11 For better cohesion of the connecting elements 16 , 17 , annular grooves 13 , 15 are provided in the extension 14 and the plug jacket 12 .

The wall thickness of leading to storage element 19 Verbin extension tube 17, in particular a rubber tube, is so pronounced that this does not yield even under maximum pressure in the storage element 19th The connecting element 16 serves as a damping element and is formed by a capillary tube. This capillary tube 16 is designed such that it is insensitive to air pressure and preferably extends somewhat into the storage element 19 . The air pumped into this element then passes from the storage element 19 via the plug element 11 (plug extension 14 , tube 9 ) and the channel 4 into the path element 3 to the measuring unit 1 .

By this measuring arrangement, the rapid inflation of the cuff is possible until the systolic blood pressure value is reached in comparison to the conventional double hose systems. The measuring arrangement described enables a safe and faster iterative approach to the systo cal or diastolic blood pressure, since the increase in air pressure is possible much faster by using the single-tube rubber bag. Due to the inserted capillary hose connection, no additional protective precautions are necessary for the measuring unit 1 .

Claims (6)

1. Measuring arrangement for blood pressure measurement, consisting of a pump device ( 20 ), a pressure storage unit ( 19 ) and a measuring unit ( 1 ), in which a gas from the pump device ( 20 ) into the pressure storage unit ( 19 ) and from this to the measuring unit ( 1 ) is forwarded, characterized in that within a first connecting hose ( 17 ) which connects the pumping device ( 20 ) and the pressure storage unit ( 19 ), a second connecting hose ( 16 ) is provided which connects the pressure storage unit ( 19 ) with the measuring unit ( 1 ) connects. 2. Measuring arrangement according to claim 1, characterized in that the second connecting hose ( 16 ) extends into the pressure storage unit ( 19 ). 3. Measuring arrangement according to claim 1 or 2, characterized in that the pressure storage unit ( 19 ) is a rubber bag. 4. Measuring arrangement according to one of claims 1 to 3, characterized in that the first connecting hose ( 17 ) is an elastic hose. 5. Measuring arrangement according to one of claims 1 to 4, characterized in that between the two connecting hoses ( 16 , 17 ) and the measuring unit ( 1 ) or pump device ( 20 ), a plug element ( 11 ) is provided, which on the one hand has two separate connections ( 12 , 14 ) for the connecting hoses ( 16 , 17 ) and, on the other hand, two separate connections ( 9 , 10 ) for the measuring unit ( 1 ) and the pump device ( 20 ). 6. Measuring arrangement according to one of claims 1 to 5, characterized in that the measuring unit ( 1 ) is a manometer.