DE202004007139U1 - Electronic blood pressure sensor, especially a wrist blood pressure sensor, has a 3D-acceleration sensor for use with an evaluation unit to warn a wearer when the sensor is not in the correct position - Google Patents

Abstract

Electronic blood pressure sensor, especially for wearing on the wrist, has a 3D-acceleration sensor that can be used to determine the position of the sensor. The measurement is sent to a microprocessor that compares it with a reference value and warns the wearer when the wrist is not correctly positioned for a measurement.

Description

technical area

The invention relates to a blood pressure monitor three-dimensional positioning of a three-dimensional acceleration sensor has the spatial The position of the sphygmomanometer can be measured by a microprocessor is sent, which makes a comparison with a reference value, whereby the user his posture can correct.

State of the art

Known blood pressure monitors work either mechanically or electronically. The mechanical blood pressure monitor can only be operated by an experienced person. The electronic Contains blood pressure monitor Table, wrist, tunnel and finger blood pressure monitors. With the electronic Blood pressure meter becomes the measurement result shown on a display. Therefore you can use the electronic Sphygmomanometer easily measure blood pressure yourself. The blood pressure values are however not constant and can through time and posture affected become. For example, blood pressure is lower in the morning and at noon blood pressure higher. At the Measure with e.g. A wrist blood pressure monitor must be on the wrist to the height of the heart. Most users of the wrist blood pressure monitor can however, do not position your wrist correctly so that the measurement accuracy is reduced.

Task of invention

For this reason, the inventor considering the disadvantages of conventional solutions after long studies, numerous attempts and constant improvements developed the present invention.

The invention is based on the object to create a blood pressure monitor with three-dimensional positioning, which has a three-dimensional acceleration sensor which the spatial The position of the sphygmomanometer can be measured by a microprocessor is sent, which carries out a comparison with a reference value. If the measured value outside of the reference value range, a warning device generates one Sound to inform the user that the position of his wrist or the sphygmomanometer is not correct. The sound of the warning device is canceled only when the measured value is within the reference value range lies. This allows the user to find out whether his wrist or the sphygmomanometer is in the correct position.

The invention is another Task, a blood pressure monitor with three-dimensional positioning to create, which has a display device through which the measurement result can be displayed.

There is another ending Task, a blood pressure monitor with three-dimensional positioning to create, the three-dimensional acceleration sensor one piezoelectric transformer (PZT), a bridge sensor and the required electronic components, wherein the piezoelectric transformer has a weight which is provided a swing that can be moved in the X, Y and Z directions can and with the bridge sensor connected is. The angular position is determined by the movement of the user the swing changed resulting in a voltage change leads of the piezoelectric transformer. The bridge sensor calculates through this voltage change a spatial Position and sends it to the microprocessor. The microprocessor compares this measured value with a reference value in the memory. If the reading is outside of the reference value range, it means that the blood pressure monitor is not is properly placed around the user's wrist or posture of the user is not correct, which causes the warning device Sound is generated until the error is corrected and the measured value within of the reference value range.

The invention is explained below the attached Drawings closer explained.

Short description of the drawings

1 shows a perspective view of the invention,

2 shows a block circuit of the invention,

3 shows a circuit diagram of the invention,

4 shows a representation of the piezoelectric transformer and the bridge sensor of the three-dimensional acceleration sensor in the X and Y directions,

4A shows a representation of the piezoelectric transformer and the bridge sensor of the three-dimensional acceleration sensor in the Z direction,

5 shows a schematic representation of the invention in use,

5A shows a schematic representation of the invention during movement in the X and Y directions,

5B shows a schematic representation of the invention when moving in the Z direction.

Ways to Execute the invention

The invention relates to a blood pressure monitor with three-dimensional positioning. In the present exemplary embodiment, an application of the extension as a wrist blood pressure monitor is shown. How out 1 . 2 and 3 can be seen, the blood pressure monitor has a cuff 10 on that a Velcro fastener 11 owns and with a housing 20 is connected in which a pressure sensor 21 is provided, which can detect the change in blood pressure through the pressure difference. The pressure sensor 21 includes an amplifier 211 and a bridge sensor 23 , The input of the amplifier 211 is with a power supply device 22 and a resistance 212 connected and the output of the amplifier 211 is with the bridge sensor 23 connected, causing that from the pressure sensor 21 detected signal in the amplifier 211 is amplified and then by the bridge sensor 23 is issued.

The bridge sensor 23 is with an A / D converter 24 connected to the multiple amplifiers 241 , Resistors 242 and capacitors 243 includes. Because the A / D converter 24 is generally known, it is not described in detail here. This A / D converter 24 is used to convert the analog signals to digital signals.

The A / D converter 24 is with a microprocessor 25 connected, which is an MCU in the present embodiment. The microprocessor 25 is with the power supply device 22 , a display device 27 , an input device 27 , a warning device 28 and a storage device 29 connected. The display device 27 can be an LCD display. The input device 27 is through multiple switches 271 formed, each with a resistance 272 are connected. The warning device 28 can generate a warning. The storage device 29 can be a memory and is used to store data.

How out 1 . 2 and 3 can be seen is the microprocessor 25 through a transistor 31 . 41 with a drive 30 and an air valve 40 connected to the cuff 10 are connected. In the present embodiment, the drive 30 a pump. After the cuff 10 the microprocessor can be placed around the user's wrist 25 the drive 30 control, which thus air in the cuff 10 inflates until a predetermined cuff pressure is reached. Then the microprocessor opens 25 the air valve 40 , causing the air from the cuff 10 is left out to measure systolic and diastolic blood pressure.

How out 2 . 3 . 4 . 4A and 5 can be seen is the microprocessor 25 with a three-dimensional acceleration sensor 50 connected, which is formed by a semiconductor chip, the piezoelectric transformer 51 , a bridge sensor 52 and includes the required electronic components. The piezoelectric transformer 51 has a weight 511 on which a swing 512 is provided, which can be moved three-dimensionally and with the bridge sensor 52 connected is. Movement of the user's arm changes the angle of the swing 512 changed, which leads to a voltage change of the piezoelectric transformer. The bridge sensor 52 uses this voltage change to calculate a spatial position and sends it to the microprocessor 25 , The microprocessor 25 compares this measured value with a reference value in the memory 29 , If the measured value is outside the reference value range, it means that the blood pressure monitor is not placed correctly around the user's wrist or the user's posture is incorrect, which causes the warning device 28 generates a sound until the error is corrected and the measured value lies within the reference value range.

When using the invention as in 2 . 3 . 5 . 5A and 5B is shown, first the cuff 10 through the Velcro around the user's wrist. After switching on the power supply device 22 the wrist together with the blood pressure monitor is raised to the level of the heart, causing the three-dimensional acceleration sensor 50 in the housing 20 a measured value for the spatial position of the blood pressure meter to the microprocessor 25 which sends the measured value with a reference value in the memory 29 compares. If the measured value lies outside the reference value range, the warning device generates 28 a sound to inform the user that the position of his wrist is not correct. If the user moves his wrist again, the three-dimensional acceleration sensor sends 50 a new measured value to the microprocessor 25 , The sound of the warning device 29 is canceled only when the measured value lies within the reference value range, so that the user can correct the position of his wrist. Then the microprocessor controls 25 the drive 30 to the air in the cuff 10 inflates until the predetermined cuff pressure is reached. Then the microprocessor controls 25 the pressure sensor 21 and opens the air valve 40 to let the air out of the cuff. The pressure sensor 21 determines the systolic and diastolic blood pressure. The measurement result is from the display device 26 displayed and in memory 29 saved.

By arranging the three-dimensional acceleration sensor 50 the extension can be designed as a table, wrist, tunnel and finger blood pressure monitor.

The invention relates to a blood pressure monitor with three-dimensional positioning, which has a microprocessor ( 25 ) with a pressure sensor ( 21 ), a warning device ( 28 ), a storage device ( 29 ), a three-dimensional acceleration sensor ( 50 ), a display device ( 26 ), a drive ( 30 ) and an air valve ( 40 ) connected is. When used, the three-dimensional acceleration sensor ( 50 ) a measured value for the spatial position of the blood pressure meter to the microprocessor ( 25 ), which the measured value with a Refe limit value in memory ( 29 ) compares. If the measured value is outside the reference value range, it means that the spatial position of the blood pressure monitor is incorrect, which means that the warning device ( 28 ) generates a warning. If the measured value is within the reference value range, it means that the spatial position of the blood pressure monitor is correct, which means that the warning device ( 28 ) the warning is canceled. Then the microprocessor controls ( 25 ) the pressure meter, the actuator and the air valve to carry out the blood pressure measurement. Therefore, the blood pressure meter can be held in the correct spatial position when measuring the blood pressure, so that the measurement accuracy is increased.

Claims (6)

Blood pressure monitor with three-dimensional positioning, consisting of a pressure sensor ( 21 ) that can detect the change in blood pressure and an amplifier ( 211 ) and a bridge sensor ( 23 ), an A / D converter ( 24 ) with the pressure sensor ( 21 ) and is used to convert the analog signals to digital signals, a microprocessor ( 25 ) with the A / D converter ( 24 ) and is used to process data, a display device ( 26 ) with the microprocessor ( 25 ) and is used to display the measurement result, an input device ( 27 ) with the microprocessor ( 25 ) and is used for entering commands, a storage device ( 29 ) with the microprocessor ( 25 ) and is used to store data, a drive ( 30 ) with the microprocessor ( 25 ) and is used for inflation, an air valve ( 40 ) with the microprocessor ( 25 ) and is used to let the air out, a three-dimensional acceleration sensor ( 50 ) with the microprocessor ( 25 ) is connected and can detect the spatial position of the blood pressure monitor, which the microprocessor ( 25 ) which compares with a reference value, whereby the user can correct his posture, and a power supply device ( 22 ) with the pressure sensor ( 21 ), the microprocessor ( 25 ), the display device ( 26 ) and the input device ( 27 ) is connected in order to supply them with the required current; the three-dimensional acceleration sensor ( 50 ) a measured value for the spatial position of the blood pressure meter to the microprocessor ( 25 ) which stores the measured value with a reference value in the memory ( 29 ) where, if the measured value is outside the reference value range, it means that the spatial position of the sphygmomanometer is not correct, and if the measured value is within the reference value range, it means that the spatial position of the sphygmomanometer is correct, after which the blood pressure measurement starts. Blood pressure monitor according to claim 1, characterized in that the input device ( 27 ) can be multiple switches. Blood pressure monitor according to claim 1, characterized in that the display device ( 26 ) can be an LCD display. Blood pressure monitor according to claim 1, characterized in that the storage device ( 29 ) can be a memory. Blood pressure monitor according to claim 1, characterized in that the microprocessor ( 25 ) with a warning device ( 28 ) that can generate a warning. Blood pressure meter according to claim 1, characterized in that the Drive can be a pump.