KR970011382B1 - Tonometer having a function of air drain control and control method thereof - Google Patents

Abstract

This invention is about the sphygmomanometer having an air drainage control function to be manufactured without a fine drainage valve which is difficult to produce and reduce the price cost. The process for controlling the sphygmomanometer contains i)opening(S120) the solenoid valve, ii)maintaining(S40) the low electric power mode, iii)determining(S60) whether the power supply switch from the key input division turns on or not, iv)raising(S80) the air pressure by driving a pressure division when the key input turns on, v)stopping(S100) the pressure when the fixed pressure comes to, vi)exhausting(S120) finely by operating the on-off of the solenoid valve after the initial value of on/off time is calculated in consideration of the pressure time, the maximum pressure, the thickness of arm, the air quantity for supplying to cut off, and the power supply condition of system, vii)detecting and storing(S130) the present pressure and the maximum value of pulse wave, vii)compensating(S140) the on/off time of solenoid valve for exhausting the fixed pressure by forecasting the on/off time of solenoid valve in advance, viii)displaying the result, viiii)terminating(S170) the operation by opening the solenoid valve.

Description

Sphygmomanometer with exhaust control function and control method thereof

1 is a block diagram of a conventional blood pressure monitor.

2 is a blood pressure measurement waveform diagram of a conventional blood pressure monitor.

3 is a block diagram of a blood pressure monitor having an exhaust control function according to an embodiment of the present invention.

4 is an operation flowchart of a control method of a blood pressure monitor having an exhaust control function according to an embodiment of the present invention.

5 is a blood pressure measurement waveform diagram of a blood pressure monitor having an exhaust control function according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

11, 21: key input unit 12, 22: sensor

13,23: microcontroller 14,24: display unit

15,25: pressurization section 16,26: solenoid valve

17: fine exhaust valve 18, 28: pressure table

The present invention relates to a blood pressure monitor having an exhaust control function and a control method thereof, and more specifically, to control the microcontroller to enable fine exhaust using a solenoid valve to control fine exhaust using the quality of the blood pressure monitor. The present invention relates to a blood pressure monitor having an exhaust control function capable of lowering the manufacturing cost of the blood pressure monitor by improving the quality of the blood pressure monitor and enabling the production of the blood pressure monitor without a fine exhaust valve, which is difficult to manufacture.

Blood pressure is a medically important factor as a criterion for judging a person's health.

In the hospital, to check the blood pressure of the patient, the pressure band is wound on the forearm of the patient and then pumped so that the pressure band is in close contact with the forearm of the patient. Sphygmomanometers for measuring human blood pressure by processing through a circuit are generally used.

In recent years, as the public's interest in health has increased, portable sphygmomanometers which can easily measure blood pressure without going to the hospital have begun to be widely used for commercial purposes.

The technology related to such a portable blood pressure monitor has been disclosed in the "portable manual blood pressure monitor" of the Republic of Korea Patent Application No. 93-24242 (application date: November 15, 1993).

Hereinafter, a conventional blood pressure monitor will be described with reference to the accompanying drawings.

1 is a block diagram of a conventional blood pressure monitor.

As shown in FIG. 1, a conventional blood pressure monitor includes a key input unit 11, a microcontroller 13 having an input terminal connected to an output terminal of the key input unit 11, and an output terminal of the micro controller 13 described above. A pressurizing part 15 having an input end connected to the sensor, a sensor 12 connected to the pressurizing part 15 through a conduit, a solenoid valve 16, a fine exhaust valve 17, and a pressure bar 18; The display unit 14 has an input terminal connected to the output terminal of the microcontroller 13.

The operation of the conventional blood pressure monitor according to the above configuration is as follows.

When power is applied by fixing the battery, the operation of the conventional blood pressure monitor is started.

When the user inputs an operation command using the key input unit 11 after the operation is started, the microcontroller 13 detects this and drives the pressing unit 15 to generate air pressure from the pressing unit 15 through the conduit. The sensor 12 and the solenoid valve 16 and the fine exhaust valve 17 and the pressure plate 18 to be delivered.

In the above case, the solenoid valve 16 is closed, and since the small amount of air pressure can flow out through the fine exhaust valve 17, most of the air pressure generated from the pressurizing portion 15 is the pressure bar. It is transmitted to (18) to allow the compression table 18 to tighten the human body (forearm).

The human body portion tightened by the pressure bar 18 increases the blood pressure, and when the pressure reaches a predetermined pressure or more, the microcontroller 13 stops the driving of the pressing unit 15.

When the driving of the pressurizing unit 15 is stopped, while the air pressure inside the conduit is reduced by the air pressure discharged through the fine exhaust valve 17, the pulsation of the blood pressure transmitted from the human body is transmitted through the air in the conduit and the sensor ( 12).

The sensor 12 converts the pulsation transmitted through the conduit into an electrical signal and then outputs it to the microcontroller 13. Thus, the waveform of the pulsation output from the sensor 12 to the microcontroller 13 is shown in FIG. 2 is a blood pressure measurement waveform diagram of a conventional blood pressure monitor.

The microcontroller 13 calculates the blood pressure from the pulsation signal input from the sensor 12 and then displays it externally through the display unit 14 so that the user can know the blood pressure.

After the blood pressure measurement, the microcontroller 13 opens the solenoid valve 16 so that the high-pressure air contained in the conduit can be quickly exhausted to the outside to make the user feel comfortable.

However, the conventional blood pressure monitor has a problem that the reliability of blood pressure measurement is lowered due to the standard deviation of the fine valve valve 17. The fine exhaust valve 17 is a component that must satisfy an exhaust specification of 2 to 5 mmHg per second, and is a very important precision component that lowers the accuracy of blood pressure measurement values when this specification is exceeded.

In addition, the conventional blood pressure monitor has a disadvantage in that the manufacturing process of the fine exhaust valve 17 is very difficult to increase the production cost by inhibiting productivity.

Accordingly, an object of the present invention is to solve the above-mentioned disadvantages, and by controlling the microcontroller so that it can be finely exhausted by using a solenoid valve, it is possible to improve the quality of the blood pressure monitor and at the same time, a fine exhaust valve that is difficult to manufacture. The present invention provides a blood pressure monitor having an exhaust control function capable of lowering the manufacturing cost of the blood pressure monitor, and a method of controlling the same.

As a means for achieving the above object, the configuration of the present invention comprises a key input unit for a user to input a command, a sensor for detecting the air pressure and pulse wave of the conduit, and converting it into an electrical signal and outputting the same; A microcontroller for outputting a control signal for fine exhaust according to a command input from a key input unit, measuring a blood pressure using a signal input from the sensor, and then outputting an information signal for external display of the blood pressure; When the control signal is input from a microcontroller is driven to pressurize the air pressure in the conduit, when the control signal is input from the microcontroller is turned on and off by the solenoid valve for exhausting the air in the conduit to the outside, Pressure bar for transmitting pulse wave to the sensor, and the micro The display unit for displaying the blood pressure to the outside in accordance with the information signal input from the controller.

As another means of achieving the above object, another configuration of the present invention includes the steps of opening the solenoid valve while starting operation when the battery is settled, maintaining the low power use mode after initializing the internal memory variable, and the key input unit. Determining whether the power switch is turned on, determining whether there is a key input when the power switch is turned on, terminating the operation when there is no key input for a predetermined time, and when the key is input, After pressing, driving the pressurizing unit to increase the air pressure, and determining whether the pressurized state reaches a certain pressure, stopping the pressurizing when reaching a constant pressure, and the time required for pressurizing the pressurized pressure to a constant pressure, the maximum pressure, Considering the thickness of the forearm, the amount of air supplied to the cuff, the state of the power supply of the system, etc. Calculating the initial on / off time of the solenoid valve for the air conditioner, and then performing fine exhaust by turning on / off the solenoid valve, detecting and storing the current pressure and pulse wave maximum value, and turning on / off the previous solenoid valve. Correcting the on / off time of the solenoid valve for exhausting a constant pressure by predicting the on / off time of the solenoid valve for exhausting the standard pressure in advance with the time and the calculated value such as the exhaust degree corresponding to the time. And determining whether the blood pressure is calculated and displaying the high and low pressures of the blood pressure when the blood pressure is calculated, and ending the operation while rapidly exhausting by opening the solenoid valve.

By the above configuration, the most preferred embodiment that can be easily carried out by those skilled in the art with reference to the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram of a blood pressure monitor having an exhaust control function according to an embodiment of the present invention.

As shown in FIG. 3, the configuration of the blood pressure monitor having the exhaust control function according to the embodiment of the present invention includes a key controller 21 and a microcontroller 23 having an input terminal connected to the output terminal of the key input unit 21 described above. ), A pressurizing portion 25 having an input terminal connected to the output end of the microcontroller 23, a sensor 22, a solenoid valve 26, and a pressure rod connected to the pressurizing portion 25 through a conduit. And a display unit 24 having an input terminal connected to the output terminal of the microcontroller 23 described above.

4 is an operation flowchart of a control method of a blood pressure monitor having an exhaust control function according to an embodiment of the present invention.

As shown in Figure 4, the configuration of the control method of the blood pressure monitor having an exhaust control function according to an embodiment of the present invention, the operation is started when the battery is mounted (S10) and the step of opening the solenoid valve (S120) Initializing an internal memory variable (S30), maintaining a low power usage mode (S40), determining whether a power switch is turned on from a key input unit (S50), and a key when the power switch is turned on Determining whether there is an input (S60), terminating the operation when there is no key input for a predetermined time (S70), and increasing the air pressure by driving the pressurizing unit after closing the solenoid valve if there is a key input. (S80), the step of determining whether the pressurized state reaches a certain pressure (S90), the step of stopping the pressurization when a certain pressure is reached (S100), and when pressurized at a constant pressure Calculating an initial value of the on / off time of the solenoid valve for the fine exhaust (S110) in consideration of the time required, the maximum pressure, the thickness of the forearm, the amount of air supplied to the cuff, and the power supply of the system (S110); Step (S120) of fine exhaust by turning on / off, the step of detecting and storing the current pressure and pulse wave maximum (S130), the on / off times of the previous solenoid valve, the degree of exhaust corresponding to the time, etc. Compensating the on / off time of the solenoid valve for exhausting a predetermined pressure by predicting the on / off time of the solenoid valve for exhausting the standard pressure by the calculated value of (S140) and determining whether the blood pressure is calculated Step S150, displaying the high and low pressures of the blood pressure when the blood pressure is calculated, and ending the operation while rapidly exhausting by opening the solenoid valve. It comprises a (S170).

The operation of the blood pressure monitor having the exhaust control function and its control method according to the embodiment of the present invention by the above-described configuration is as follows.

When the battery is mounted on the blood pressure monitor by the user, the control program as shown in FIG. 4 stored in the internal memory of the microcontroller 23 is executed by the microcontroller 23, according to an embodiment of the present invention. The operation of the blood pressure monitor having the exhaust control function starts.

When the operation starts, the microcontroller 23 opens the solenoid valve 26 by outputting a drive signal to the solenoid valve 26.

Next, after initializing the internal memory variable, the microcontroller 23 maintains a low power usage mode in which minimum power consumption is internally performed.

In the low power usage mode, the microcontroller 23 determines whether the power switch is turned on by sensing a signal input from the key input unit 21.

When the power switch is turned on, the microcontroller 23 determines whether there is a key input from the key input unit 21, and terminates the operation when there is no key input for a predetermined time.

However, when there is a key input from the key input section 21, the microcontroller 23 holds the solenoid valve 26 and drives the press section 25 so that the air pressure in the conduit increases.

As described above, the air pressure generated from the pressurizing portion 25 is transmitted to the sensor 22, the solenoid valve 26 and the pressing table 27 through the conduit. In this case, since the solenoid valve 26 is closed, most of the air pressure generated from the pressurizing portion 25 is transmitted to the pressing table 27 so that the pressing table 27 can tighten the human body (forearm).

Blood pressure is increased in the human body portion tightened by the pressure bar 27, and the microcontroller 23 judges whether the pressurized state reaches a certain pressure, and when the constant pressure is reached, emphasizes the driving of the pressurizing unit 25. Stop pressurization.

Next, after calculating the initial value of the ON / OFF time of the solenoid valve for fine exhaust, microcontroller 23 starts the fine exhaust by turning ON / OFF solenoid valve 26.

In this way, while the fine exhaust air pressure is reduced by the solenoid valve 26 is made, the pulsation of the blood pressure transmitted from the human body is transmitted through the air of the conduit and sensed by the sensor 22.

The sensor 22 converts the pulsation transmitted through the conduit into an electrical signal and then outputs it to the microcontroller 23. Thus, the waveform of the pulsation output from the sensor 22 to the microcontroller 23 is shown in FIG. 5 is a blood pressure measurement waveform diagram of a blood pressure monitor having an exhaust control function according to an embodiment of the present invention.

The microcontroller 23 detects the current pressure and pulse wave maximum value from the pulsation signal input from the sensor 12 and stores it in the internal memory.

Next, the microcontroller 23 corrects the on / off time of the solenoid valve 26 by reflecting the current pressure. The on / off time of the solenoid valve 26 is calculated experimentally and theoretically, and is stored in a table in the internal memory of the microcontroller 23.

As described above, after the on / off time of the solenoid valve 26 is corrected, the microcontroller 23 determines whether the blood pressure is calculated, and when the blood pressure is calculated, the high and low pressures of the blood pressure are externally displayed through the display unit 24. Displaying on allows the user to know the blood pressure.

When the blood pressure is displayed through the display unit 24, the microcontroller 23 opens the solenoid valve 26 to allow the high-pressure air contained in the conduit to be rapidly exhausted to the outside, and then ends the operation.

As described above, in the embodiment of the present invention, by controlling the microcontroller to be a fine exhaust by using a solenoid valve to improve the quality of the blood pressure monitor, and to be able to manufacture a blood pressure monitor without a fine exhaust valve difficult to manufacture As a result, a blood pressure monitor having an exhaust control function having an effect of lowering the manufacturing cost of the blood pressure monitor and a control method thereof can be provided. This effect of the present invention can be used in the fields of designing, manufacturing, and selling blood pressure monitors.

Claims (3)

The user inputs a key input unit for inputting a command, a sensor for detecting air pressure and pulse wave of the conduit, and converting it into an electrical signal and outputting it, and a control signal for fine exhaust according to the command inputted from the key input unit. While outputting the blood pressure using the signal input from the sensor, and then outputting an information signal for displaying it externally, and when the control signal is input from the microcontroller is driven to drive the air pressure in the conduit A pressurizing unit for pressurizing, a solenoid valve for exhausting air in the conduit to the outside by turning on and off when a control signal is input from the microcontroller, a presser for transmitting pulse waves generated from a human body to the sensor, Blood pressure is displayed externally according to the information signal input from the microcontroller. Sphygmomanometer having an exhaust control function, characterized in that it comprises a display unit for. The blood pressure monitor according to claim 1, wherein the microcontroller finely exhausts air in the conduit by turning on / off the solenoid valve. When the battery is settled, the operation starts when the solenoid valve is opened, after the internal memory variable is initialized, the low power usage mode is maintained, and whether the power switch is turned on from the key input unit, and the power switch is turned on. In this case, it is determined whether there is a key input, and if there is no key input for a predetermined time, ending the operation; if there is a key input, driving the pressurizing unit to increase the air pressure, and whether the pressurized state reaches a constant pressure. When the pressure reaches a certain pressure by judging, stopping the pressurization, taking into consideration the time required when pressurizing the pressure at a constant pressure, the maximum pressure, the thickness of the forearm, the amount of air supplied to the cuff, and the state of the power supply of the system. When the solenoid valve is on / off after calculating the initial value of the solenoid valve for The normal pressure by calculating the exhaust pressure, detecting and storing the current pressure and pulse wave maximum value, the on / off times of the previous solenoid valve, and the exhaust degree corresponding to the time. Correcting the on / off time of the solenoid valve for exhausting a predetermined pressure by predicting the on / off time of the solenoid valve for exhausting in advance; and determining whether the blood pressure has been calculated, And a step of displaying the low pressure and ending the operation while rapidly exhausting the valve by opening the solenoid valve.