KR102121725B1 - Blood pressure measurement method and apparatus for measuring the blood pressure of both arms by interlocking an independent blood pressure measurement device - Google Patents

Abstract

The present invention relates to a blood pressure measuring method and a blood pressure measuring device for measuring blood pressure of both arms of a person to be measured by interlocking an independent blood pressure measuring device.
In the blood pressure measuring method according to an embodiment of the present invention, in the method of measuring the blood pressure of both arms of a person to be measured by interlocking the first blood pressure measuring device with a second blood pressure measuring device independent of the first blood pressure measuring device, Creating a communication session with the blood pressure measurement device; Obtaining a first measurement start signal; Generating a second measurement start signal of the second blood pressure measurement device based on the first measurement start signal; Transmitting the second measurement start signal to the second blood pressure measurement device through the communication session; Acquiring a first measurement result signal of the first blood pressure measurement device and receiving a second measurement result signal from the second blood pressure measurement device; And displaying the blood pressure of the subject to be measured based on the first measurement result signal and the second measurement result signal. It includes.

Description

Blood pressure measurement method and apparatus for measuring the blood pressure of both arms by interlocking an independent blood pressure measurement device}

The present invention relates to a blood pressure measuring method and a blood pressure measuring device, and more particularly, to a blood pressure measuring method and a blood pressure measuring device for measuring blood pressure of both arms of a person to be measured by interlocking independent blood pressure measuring devices.

Blood pressure measurement devices that automatically perform the blood pressure measurement process are becoming common, and the blood pressure measurement device electronically processes the measurement process through various sensors and configurations and displays the measurement results through a screen or voice. The blood pressure measuring device measures the blood pressure in a non-invasive manner by detecting the magnitude of pressure oscillation or fremitus generated in the cuff on the arterial vessel when air pressure is applied to the cuff and then slowly decompresses the air pressure. .

The blood pressure measuring device first blocks the flow of blood by pressing the blood pressure measuring part of the subject. After the cutoff point, the pressure is measured by resuming the flow of blood flow while gradually reducing the degree of compression of the cuff, and detecting the resulting vibration or vibration. Mainly, the blood pressure measuring device fills the air pressure in the cuff included in the device so that the body part of the subject is pressurized, and gradually measures the highest blood pressure, the lowest blood pressure, and the pulse of the subject while gradually reducing the air pressure of the cuff. When the cuff is filled with air pressure, the blood flow of the corresponding arterial vessel disappears, and when the pressure of the cuff is gradually reduced, blood flows into the space of the first vascular vessel at some point, causing vibration or sound due to the pulse. After that, the maximum vibration width or sound is recorded, and as the pressure of the cuff is further released, the vibration or sound is gradually reduced and eventually exhausted.

According to this measurement method, the cuff is in close contact with the body of the person being measured, so that the sensor included in the cuff accurately senses vibration or sound caused by the pulse, thereby guaranteeing the accuracy and reliability of the blood pressure measurement result. Therefore, for accurate blood pressure measurement, it is known that it is most suitable to measure in a stable posture and without stress, and since the blood pressure varies from heart to heart, multiple measurements are required to obtain reliable results.

In particular, when diagnosing hypertension, the blood pressure of both arms is measured respectively, and if there is a difference, the blood pressure is measured again, and the hypertension is diagnosed based on the blood pressure of the highly measured side. In addition, when measuring blood pressure, guidelines have been suggested to be based on the arm of the side where the blood pressure is measured high. Blood pressure in both arms may be slightly different even in normal people, but it is known that the greater the difference, the more it suggests peripheral vascular disease and increases the morbidity and mortality of cardiovascular diseases.

1 is a schematic diagram showing a conventional two-arm blood pressure measuring device and its driving system.

Referring to (a) and (b) of FIG. 1, the conventional both-arm blood pressure measuring apparatus 10 includes cuffs 1 and 2 wearable on both arms, and a control unit 4 provided on one body 3 ) Is configured to drive each cuff 1, 2. The first sensor 5 provided in the first cuff 1 measures the blood pressure of one arm, and the second sensor 6 provided in the second cuff 2 measures the blood pressure of the other arm, The control unit 4 displays the results measured by the display unit 7.

According to the conventional two-arm blood pressure measuring device 10, it is configured to simultaneously measure blood pressure of both arms of a person to be measured, but it is easy to operate the blood pressure measuring device when both arms are fixed to the cuffs 1 and 2, respectively. There are a number of limitations in using it.

In particular, since the two cuffs 1 and 2 are connected to one body 3, the blood pressure measuring device 10 is inevitably limited in movement of the subject. Normally, the blood pressure measuring device is usually provided with an emergency stop button capable of stopping blood pressure measurement in an emergency when an excessive pressure is inadvertently applied to the cuff during measurement. According to the two-arm blood pressure measuring device 10 according to FIG. 1 , The two arms are fixed to the cuff (1, 2), the subject is not free movement, there is a problem that the input to the input unit 8 such as the emergency stop button is limited.

In addition, the conventional blood pressure measuring device 10 has a problem in that both measurement results from both cuffs 1 and 2 cannot be trusted when a malfunction occurs, and one of the two cuffs 1 and 2 is defective. There is also a problem in that both the blood pressure measuring device 10 cannot be used in the case where this occurs or when the main body 3 is defective. Furthermore, according to the conventional two-arm blood pressure measuring apparatus 10, since it is basically configured to measure the blood pressure of both arms, there is also a limitation in that the utility value in a situation where only one arm's blood pressure can be measured is lowered.

1. Korea Patent Publication No. 10-2002-0028755 (Name of the invention: a two-arm sphygmomanometer system measuring simultaneously at constant pressure and a control method thereof) 2. Korea Utility Model Publication No. 20-2011-0006433 (Design name: Blood pressure monitor for measuring blood pressure in both arms of the human body) 3. Korean Patent Publication No. 10-2013-0069290 (Invention name: A measurement device for both arms blood pressure through simultaneous automatic measurement of both arms blood pressure)

The two-arm blood pressure measuring device having a plurality of cuffs that can be worn on both arms has an advantage over using the blood pressure measurement result of one arm in that a more accurate diagnosis can be made using the blood pressure measurement results of both arms. However, looking at the conventional two-arm blood pressure measuring device, it can be seen that there are various limitations and problems arising from a structure in which both arms are fixed and a structure in which both cuffs are provided in one body. In addition, the conventional two-arm blood pressure measuring devices have not suggested an appropriate method when the person to be measured wants to measure the blood pressure of one arm, and thus there is a need for a structurally improved method and device for measuring the blood pressure of both arms.

Accordingly, the inventors of the present invention solve the above problems to improve the reliability of the blood pressure measurement while improving the convenience of the person being measured, and further study the development of a blood pressure measurement device that can be used in parallel to measure the blood pressure of both arms and one arm. Did. At the end of the study, the blood pressure measuring method of measuring the blood pressure of both arms in conjunction with an independent blood pressure measuring device was invented.

Accordingly, one problem to be solved by the present invention is to provide a blood pressure measuring method and a blood pressure measuring device for measuring blood pressure in both arms by linking each independent blood pressure measuring device, unlike a conventional one-piece blood pressure measuring device.

In addition, another problem to be solved by the present invention is to provide a blood pressure measuring device with improved convenience for use and a measuring method using the measuring device by more easily configuring the operation of the blood pressure measuring device in measuring the blood pressure of both arms of a person to be measured. have. In particular, it is to provide a blood pressure measuring device configured to immediately respond to a subject in a safety-related situation, such as an emergency stop situation, and a measuring method using the measuring device.

In addition, another problem to be solved by the present invention is to utilize the blood pressure measuring device of the present invention by configuring the blood pressure measuring device of the present invention in both a condition for measuring blood pressure in one arm and a condition for measuring blood pressure in both arms. Is to raise.

In addition, another problem to be solved by the present invention is to provide a reliable measurement result for blood pressure of both arms of a person to be measured through blood pressure measurement results measured from each blood pressure measurement device, and further to calculate and provide a difference in blood pressure between both arms By doing so, it is to provide a blood pressure measuring device capable of providing more diversified measurement results and a measuring method using such a measuring device.

The problems of the present invention are not limited to the problems mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

A method for measuring blood pressure in both arms according to an embodiment of the present invention for solving the above-described problem, in which a first blood pressure measuring device measures blood pressure in both arms of a person to be measured in conjunction with a second blood pressure measuring device independent of the first blood pressure measuring device A method comprising: creating a communication session with the second blood pressure measuring device; Obtaining a first measurement start signal; Generating a second measurement start signal of the second blood pressure measurement device based on the first measurement start signal; Transmitting the second measurement start signal to the second blood pressure measurement device through the communication session; Acquiring a first measurement result signal of the first blood pressure measurement device and receiving a second measurement result signal from the second blood pressure measurement device; And displaying the blood pressure of the subject to be measured based on the first measurement result signal and the second measurement result signal. It includes.

In addition, according to another feature of the present invention, the step of obtaining the first measurement start signal includes: recognizing the insertion of the arm of the subject into the first blood pressure measurement device; Receiving a signal corresponding to the recognition of the insertion of the remaining arm of the subject from the second blood pressure measuring device through the communication session; And when the insertion of the subject's arm is recognized by the first blood pressure measurement device and a signal corresponding to the recognition of the insertion of the other arm is received from the second blood pressure measurement device, generating the first measurement start signal. step; It may include.

In addition, according to another feature of the present invention, the step of generating the second measurement start signal may include generating the second measurement start signal at a second time point after a preset interval time point from a first time point at which the first measurement start signal is acquired. The second blood pressure measurement device may generate the second measurement start signal to start blood pressure measurement.

In addition, according to another feature of the present invention, the method for measuring blood pressure in both arms, after the step of transmitting the second measurement start signal to the second blood pressure measurement device, the first blood pressure measurement device in response to an emergency stop signal And ending blood pressure measurement of the second blood pressure measurement device. It may include.

In addition, according to another feature of the invention, the step of ending the blood pressure measurement comprises: obtaining the emergency stop signal; Ending blood pressure measurement of the first blood pressure measurement device in response to the emergency stop signal; Generating an end blood pressure measurement signal of the second blood pressure measurement device in response to the emergency stop signal; And transmitting a blood pressure measurement end signal of the second blood pressure measurement device to the second blood pressure measurement device through the communication session. It may include.

In addition, according to another feature of the invention, the emergency stop signal, when the pressure sensor provided in the first blood pressure measuring device detects a predetermined threshold pressure or more, or the pressure sensor provided in the second blood pressure measuring device May be generated based on a case where a predetermined threshold pressure or more is detected.

In addition, according to another feature of the present invention, the emergency stop signal may be generated based on a user input to an emergency stop sensor provided in at least one of the first blood pressure measuring device and the second blood pressure measuring device. have.

In addition, according to another feature of the present invention, the emergency stop sensor may be at least one of a switch sensor, an acoustic sensor, and a vibration sensor.

Further, according to another feature of the present invention, the step of displaying the blood pressure of the subject is measured based on the first measurement result signal and the second measurement result signal, the average blood pressure of the blood pressure of both arms of the subject is measured. Calculating; And displaying the calculated average blood pressure as the blood pressure of the subject. It may include.

Further, according to another feature of the present invention, the step of displaying the blood pressure of the subject to be measured, based on the first measurement result signal and the second measurement result signal, to display the blood pressure of each arm of the subject step; It may include.

In addition, according to another feature of the present invention, the step of displaying the blood pressure of the subject to calculate, based on the first measurement result signal and the second measurement result signal, calculates a difference in blood pressure between both arms of the subject step; And displaying a difference in blood pressure between the arms. It may further include.

Further, according to another feature of the present invention, in the step of displaying the difference in blood pressure between both arms, when the difference in blood pressure between both arms is equal to or greater than a preset value, a corresponding notification message may be displayed together.

A blood pressure measuring device according to an embodiment of the present invention for solving the above problems is a blood pressure measuring device for measuring the blood pressure of both arms of a subject in connection with an independent additional blood pressure measuring device, the communication session with the additional blood pressure measuring device Generating, generating a second measurement start signal of the additional blood pressure measurement device based on the first measurement start signal, transmitting the second measurement start signal to the additional blood pressure measurement device through the communication session, and measuring the first Acquiring a result signal, receiving a second measurement result signal from the additional blood pressure measurement device, and displays the blood pressure of the subject to be measured based on the first measurement result signal and the second measurement result signal.

According to the blood pressure measuring method and the blood pressure measuring device of the present invention, it is possible to improve the convenience of the subject while increasing the reliability of blood pressure measurement on both arms, and furthermore, to measure the blood pressure of both arms and one arm in parallel.

Specifically, according to the blood pressure measuring method and blood pressure measuring device of the present invention, unlike the conventional integrally formed two-arm blood pressure measuring device, a blood pressure measuring method and a blood pressure measuring device for measuring blood pressure in both arms by interlocking each independent blood pressure measuring device By providing, it enables the person to be measured to more easily operate the blood pressure measuring device.

In particular, according to the blood pressure measuring method and the blood pressure measuring device of the present invention, it is possible to immediately respond to the subject in a situation related to the safety of the subject, such as an emergency stop situation.

In addition, according to the blood pressure measuring method and the blood pressure measuring device of the present invention, the blood pressure measuring device of the present invention is made available by using the blood pressure measuring device of the present invention in both the condition of measuring the blood pressure of one arm and the blood pressure of both arms. It can increase utilization value.

In addition, according to the blood pressure measuring method and blood pressure measuring device of the present invention, it is possible to provide a reliable measurement result for blood pressure of both arms of a person to be measured through blood pressure measuring results measured from each blood pressure measuring device. In particular, it is possible to provide more diversified measurement results by calculating and providing blood pressure differences between both arms.

1 is a schematic diagram showing a conventional two-arm blood pressure measuring device and its driving system.
2 is a conceptual diagram illustrating a state in which the blood pressure measuring device according to an embodiment of the present invention operates in conjunction with an independent blood pressure measuring device.
3 is a view showing a specific configuration of a blood pressure measuring device according to an embodiment of the present invention.
4 is a flowchart illustrating a process in which the first blood pressure measuring device and the second blood pressure measuring device interoperate with each other to measure blood pressure of both arms.
5 and 6 are flowcharts illustrating respective embodiments of a process in which the first blood pressure measurement device acquires a measurement start signal and transmits a measurement start signal to a second blood pressure measurement device that is interlocked.
7 is a view showing an exemplary screen displayed on the display unit of the blood pressure measuring apparatus according to an embodiment of the present invention.
8 is a flowchart illustrating a process in which the first blood pressure measurement device ends blood pressure measurement in response to an emergency stop signal.

Advantages and features of the present invention, and methods for achieving them will be clarified with reference to embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, and only the present embodiments allow the disclosure of the present invention to be complete, and the general knowledge in the technical field to which the present invention pertains. It is provided to fully inform the holder of the scope of the invention, and the invention is only defined by the scope of the claims.

The shapes, sizes, ratios, angles, numbers, etc. disclosed in the drawings for describing the embodiments of the present invention are exemplary and are shown for convenience of explanation, and the present invention is not limited to the illustrated matters. In addition, in the description of the present invention, when it is determined that detailed descriptions of related known technologies may unnecessarily obscure the subject matter of the present invention, detailed descriptions thereof will be omitted.

When'include','have','consist of', etc. mentioned in this specification are used, other parts may be added unless'~man' is used. When a component is expressed as a singular number, the plural number is included unless otherwise specified. In interpreting the components, it is interpreted as including the error range even if there is no explicit description.

The same reference numerals refer to the same components throughout the specification.

Each of the features of the various embodiments of the present invention may be partially or totally combined or combined with each other, and technically various interlocking and driving may be possible as those skilled in the art can fully understand, and each of the embodiments may be implemented independently of each other. It can also be implemented together in an associative relationship.

In the following embodiments, terms such as first and second may be used to describe various components, but the components should not be limited by terms. The terms are only used to distinguish one component from other components.

Embodiments of the present invention may be represented by functional block configurations and various processing steps. These functional blocks can be implemented with various numbers of hardware or/and software configurations that perform specific functions. For example, embodiments of the present invention may be implemented directly, such as memory, processing, logic, look-up table, etc., capable of executing various functions by control of one or more microprocessors or other control devices. Circuit configurations can be employed. Similar to how the components of an embodiment of the invention can be implemented in software programming or software components, an embodiment of the invention includes various algorithms implemented in a combination of data structures, processes, routines or other programming components. It can be implemented in programming or scripting languages such as C, C++, Java, and assembler. Functional aspects can be implemented with algorithms running on one or more processors. In addition, embodiments of the present invention may employ conventional techniques for electronic environment setting, signal processing, and/or data processing. Terms such as mechanisms, elements, means, and constructions can be used broadly and are not limited to mechanical and physical constructions. The term may include the meaning of a series of routines of software in connection with a processor or the like.

In the present specification, when one component'transmits' information, data, or a signal to another component, the component can directly transmit the information, data, or signal to another component, and at least It means that information, data, or signals can be transmitted to another component through one another component. In addition, when one component'receives' information, data, or a signal to another component, the component can directly receive the information, data, or signal from another component, and at least one It means that information, data, or signals can be received from other components through another component.

Hereinafter, a blood pressure measuring apparatus and a method for measuring blood pressure in both arms according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Prior to the detailed description of the blood pressure measuring device of the present invention, the body part to be measured of the blood pressure measuring device of the present invention is exemplified as the upper arm of the arm. However, this is for convenience of description, and is not intended to limit the blood pressure measuring device of the present invention to only measuring blood pressure of the upper arm. The blood pressure measuring device of the present invention includes the following features of the present invention, and simultaneously measures blood pressures of symmetrical body parts on the body parts that are symmetrical to each other of the subjects, such as cuffs, fingers, and calves inserted into the cuff. It should be noted in advance that it can be configured to be.

2 is a conceptual diagram showing a state in which the blood pressure measuring device according to an embodiment of the present invention operates in conjunction with an independent blood pressure measuring device, and FIG. 3 shows a specific configuration of the blood pressure measuring device according to an embodiment of the present invention It is one drawing.

Referring to FIG. 2, the blood pressure measuring devices 100 and 200 of the present invention include one blood pressure measuring device 100 interlocked with the other blood pressure measuring device 200 independent of the blood pressure measuring device 100 and both arms of the person to be measured. A blood pressure measurement method for measuring blood pressure is performed.

Prior to the detailed description, the blood pressure measuring devices 100 and 200 of the present invention operate in conjunction with two blood pressure measuring devices, and any one blood pressure measuring device is a master device for performing the blood pressure measuring method of the present invention. , Another blood pressure measuring device may be operated as a slave device performing the blood pressure measuring method of the present invention. In the following description of the specific method and apparatus for measuring blood pressure in both arms of the present invention, the first blood pressure measuring apparatus 100 will be described as a master apparatus and the second blood pressure measuring apparatus 200 as a slave apparatus.

However, the separation of the blood pressure measuring devices 100 and 200 in this way is functional in each step in which the first blood pressure measuring device 100 and the second blood pressure measuring device 200 operate in performing the blood pressure measuring method of the present invention. It is intended to be classified as, the first blood pressure measuring device 100 and the second blood pressure measuring device 200 is not a premise of a device having a different configuration. In other words, the first blood pressure measuring device 100 and the second blood pressure measuring device 200 are devices having the same configuration, but may be used only for the purpose of distinguishing the master slave control method according to an embodiment.

In addition, unlike this, the first blood pressure measuring device 100 and the second blood pressure measuring device 200 may be devices having different configurations. In other words, the first blood pressure measuring device 100 is a master device configured to perform the two-arm blood pressure measuring method of the present invention, and the second blood pressure measuring device 200 is a slave configured to be controlled by the first blood pressure measuring device 100 As a device, two blood pressure measuring devices 100 and 200 may be configured to operate in pairs. However, in any case, the technical scope of the method for measuring blood pressure in both arms of the present invention described below is, of course, not limited to the embodiments disclosed below.

2 and 3, the first blood pressure measuring device 100 (hereinafter referred to as'blood pressure measuring device') of the present invention includes a cuff 110, a body 120 connected to the cuff 110, and a control unit 130 And a communication unit 140.

The cuff 110 is configured such that the body part of the subject can be inserted into the extended space with the inlet and outlet as both ends.

The cuff 110 includes a frame 111 constituting an overall shape and a pressing table 112 that applies pressure directly to a body part of the subject. The presser table 112 is accommodated in the inner periphery of the cuff 110, and when the upper arm of the subject is inserted into the cuff 110, it is inflated by air and surrounds the measurement part of the subject to measure blood pressure. The cuff 110 includes a pressure sensor 113 that detects the pressure of the pressurized table at least a portion of the pressurized table 112, and the air pump 121 and the air supply pipe 122 that inject air into the pressurized table 112 Are connected by.

The cuff 110 may be formed in an inclined state to form a constant angle with the main body 120 in consideration of the angle at which the body part of the subject is inserted.

The main body 120 is connected to the cuff 110 and is provided with various means to measure blood pressure in the cuff 110.

The main body 120 includes an air pump 121 for supplying compressed air to the pressurized table 112, a pressurized valve 122 connected to the air pump 121, and an exhaust valve for discharging compressed air from the pressurized table 112 ( And a fine exhaust valve 123, a rapid exhaust valve 124, and an electronic circuit device 125 including various driving circuits. The main body 120 may include a display unit 126 displaying a measurement result in the cuff 110 and an input unit 127 configured to input a control signal to the blood pressure measurement device 100. As the display unit 126, well-known display means and speaker means for outputting a measurement result may be included, and as the input unit 127, a power button for turning on/off the blood pressure measuring apparatus 100 of the present invention, and starting/ending a blood pressure measurement It may include a button and an emergency stop button for urgently stopping blood pressure measurement. In addition, the main body 120 may include a sensor unit 128 including at least one of a switch sensor, an acoustic sensor, and a vibration sensor.

Also, although not shown, the main body 120 may further include a support (not shown) configured to extend from the cuff 110 and support the lower arm of the subject inserted into the cuff 110.

The control unit 130 controls each configuration of the cuff 110 and the main body 120 to perform the blood pressure measurement method of the present invention.

The control unit 130 receives the internal pressure signal of the pressure stage 112 from the A/D converter and applies driving signals to the air pump driving circuit, the pressure valve driving circuit, and the exhaust valve driving circuit, thereby making the cuff 110 and the body 120 ) Can control each configuration. In addition, the control unit 130 may control each configuration of the cuff 110 and the main body 120 based on signals input or detected from the input unit 127 and the sensor unit 128. Furthermore, the control unit 130 may control the display unit 126 to display the measurement result in the cuff 110.

Specifically, the control unit 130 generates a communication session with the linked blood pressure measurement device, generates a measurement start signal of the linked blood pressure measurement device based on the input measurement start signal, and measures it through the communication unit 140 to be described later. The start signal may be transmitted to the linked blood pressure measurement device. In addition, the control unit 130 may obtain a measurement result signal and receive a measurement result signal from an interlocked blood pressure measurement device to calculate the blood pressure of the evaluator. A more specific control method of the control unit 130 and a method of performing the blood pressure measurement method will be described later with reference to FIGS. 4 to 6.

Here, the controller 130 is described as being included and operated as a configuration of the blood pressure measuring apparatus 100 of the present invention, but is not limited thereto. The control unit 130 is a separate device that is distinguished from the blood pressure measurement device 100 or is provided in the blood pressure measurement device 100 or is provided outside the blood pressure measurement device 100 in a form connected to the blood pressure measurement device 100 It may be provided. In addition, since the control unit 130 is composed of a plurality of devices, some devices are included in the blood pressure measuring device 100 of the present invention to operate as part of the blood pressure measuring device 100, and the rest of the devices are blood pressure measuring devices 100 It may also operate as a device provided separately.

The control unit 130 may include any type of device capable of processing data, such as a processor. The controller 130 may refer to a data processing device embedded in hardware having physically structured circuits to perform functions represented by codes or instructions included in a program. As an example of such a data processing device embedded in hardware, a microprocessor, a central processing unit (CPU), a processor core, a multiprocessor, an ASIC (application-) A specific integrated circuit (FPGA), a field programmable gate array (FPGA), or the like, may be included, but the scope of the present invention is not limited thereto.

The communication unit 140 transmits and receives a control signal or various data to perform the blood pressure measurement method of the present invention with the blood pressure measurement device 200 to which the blood pressure measurement device 100 is interlocked.

Specifically, the communication unit 140 may transmit a measurement start signal generated from the control unit 130 by creating a communication session with the blood pressure measurement device. In addition, the measurement result signal may be received from the blood pressure measuring device interlocked and transmitted to the control unit 130. A more specific communication method of the communication unit 140 and a method of performing the blood pressure measurement method will be described later with reference to FIGS. 4 to 6.

The communication unit 140 may be a device including hardware and software necessary for transmitting and receiving a signal such as a control signal or a data signal through a wired or wireless connection. For example, the communication unit 140 may be a device including Bluetooth communication hardware and software necessary for transmitting and receiving a signal such as a control signal or a data signal through a Bluetooth connection with a blood pressure measuring device 200 that is interlocked. The communication unit 140 may be a device including hardware and software for Wi-Fi communication, or a device including hardware and software for Zig-bee communication. However, this is exemplary, and the spirit of the present invention is not limited thereto, and a device including hardware and software capable of wirelessly connecting a plurality of devices may be used without limitation.

On the other hand, although not shown in the drawing, the blood pressure measuring apparatus 100 of the present invention may include a storage unit.

The storage unit may store a program for processing and control of the controller 130, or may store input/output data. The storage unit is a flash memory type, hard disk type, multimedia card micro type, card type memory (for example, SD or XD memory, etc.), RAM (RAM, Random access memory (SRAM), static random access memory (ROM), ROM (ROM, Read-Only Memory), EEPROM (Electrically Erasable Programmable Read-Only Memory), PROM (Programmable Read-Only Memory), magnetic memory, magnetic disk, optical disk It may include at least one type of storage medium.

Hereinafter, the first blood pressure measuring device 100 and the first blood pressure measuring device 100 and the second blood pressure measuring device 200 independent of each other will be described in detail with respect to performing the blood pressure measuring method of the present invention.

First, with reference to FIGS. 4 to 7, a description will be given of a method in which the first blood pressure measuring device 100 and the second blood pressure measuring device 200 measure the blood pressure of both arms of a subject.

4 is a flowchart illustrating a process in which the first blood pressure measuring device and the second blood pressure measuring device interoperate with each other to measure the blood pressure of both arms, and FIGS. 5 and 6 show that the first blood pressure measuring device acquires the measurement start signal and interlocks It is a flow chart showing each embodiment of the process of transmitting the measurement start signal to the second blood pressure measurement device, and FIG. 7 shows an exemplary screen displayed on the display unit of the blood pressure measurement device according to an embodiment of the present invention It is a drawing.

Referring to FIG. 4, the first blood pressure measuring apparatus 100 of the present invention generates a communication session in conjunction with the second blood pressure measuring apparatus 200 that is unique (S100).

The first blood pressure measuring device 100 and the second blood pressure measuring device 200 interlock and process a series of processes input from a user, such as a person to be measured, through a wired or wireless connection. In this step, the first blood pressure measuring device 100 and the second blood pressure measuring device 200 recognize each other through a message exchange method in order to communicate between processes. The first blood pressure measuring device 100 and the second blood pressure measuring device 200 are maintained in an interlocked state until the end blood pressure measurement signal is received.

This step (S100) is a wireless communication method by Wi-Fi Direct between the first blood pressure measurement device 100 and the second blood pressure measurement device 200, and a wireless communication method by Bluetooth® connection. It can be achieved by employing a variety of wireless communication methods. In addition, the present invention is not limited thereto, and the step S100 may be performed by a communication method using a wired connection.

After the first blood pressure measurement device 100 and the second blood pressure measurement device 200 are interlocked with each other, the first blood pressure measurement device 100 obtains a first measurement start signal and generates a first measurement signal based on the first measurement start signal. 2 generates a second measurement start signal of the blood pressure measurement device 200 (S200).

The process (S200) of obtaining the first measurement start signal by the first blood pressure measurement device 100 and generating the second measurement start signal of the interlocked second blood pressure measurement device 200 is described below with reference to FIGS. 5 and 6. It may be performed according to each embodiment.

Referring to FIG. 5, the first blood pressure measuring device 100 recognizes the insertion of the arm of the subject into the first blood pressure measuring device 100 through a sensor provided in the cuff 110 (S211). In addition, the second blood pressure measuring device 200 may also recognize the insertion of the rest of the arm of the subject into the first blood pressure measuring device 200 through a sensor provided in the cuff.

The first blood pressure measuring device 100 receives a signal corresponding to the recognition of the insertion of the rest of the arm of the subject from the second blood pressure measuring device 200 (S212).

When the insertion of the subject's arm is recognized by the first blood pressure measuring apparatus 100 and a signal corresponding to the recognition of the insertion of the other arm is received from the second blood pressure measuring apparatus 200, the first blood pressure measuring apparatus 100 ) Generates a first measurement start signal (S213).

Thereafter, the first blood pressure measurement device 100 generates a second measurement start signal of the second blood pressure measurement device 200 based on the first measurement start signal (S214).

According to the start signal acquisition and generation method illustrated in FIG. 5, after the insertion of both arms into the first blood pressure measurement device 100 and the second blood pressure measurement device 200 is detected, the first blood pressure measurement device 100 and the first 2 The first measurement start signal and the second measurement start signal of the blood pressure measurement device 200 are generated. The person to be measured only needs to insert the arm into each blood pressure measuring device 100, 200, and the first blood pressure measuring device 100 and the second blood pressure measuring device, even if the person does not input a signal to a separate input means The 200 may detect the user's both arms inserted into the measurement device and start measurement.

Meanwhile, referring to FIG. 6, the first blood pressure measurement device 100 acquires a first measurement start signal (S221).

Here, the first measurement start signal may be a start signal input by the person to be measured through the input unit 127 of the first blood pressure measurement device 100.

The first blood pressure measuring apparatus 100 is configured to second the second blood pressure measuring apparatus 200 to start blood pressure measurement from a first time point at which a first measurement start signal is acquired, and at a second time point after a predetermined interval time point. A measurement start signal is generated (S222).

According to the method for acquiring and generating the start signal of the embodiment shown in FIG. 6, the person to be measured inserts an arm into the first blood pressure measuring device 100 and then inputs the input unit 127 of the first blood pressure measuring device 100 through the rest of the arm The start signal is input, and the subject then inserts the remaining arm into the second blood pressure measuring device 200. The first blood pressure measuring device 100 waits for a time interval during which the person to be measured can take a measurement posture by inserting an arm into the second blood pressure measuring device 200 and then the second blood pressure measuring device 200 can start measuring. To make.

In the embodiment according to FIG. 5, even if the subject does not input a separate start signal, the sensor unit provided in the first blood pressure measuring device 100 and the second blood pressure measuring device 200 detects the input of the arm of the subject and automatically As a method for generating a measurement start signal of the first blood pressure measuring device 100 and the second blood pressure measuring device 200, the embodiment according to FIG. 6 shows the first blood pressure measuring device 100 How to control the driving of the first blood pressure measuring device 100 and the second blood pressure measuring device 200 when the first blood pressure measuring device 100 predicts the next action of the subject when the measurement start signal is input with) It is an example.

Herein, the process (S200) of the first blood pressure measurement device 100 acquiring the first measurement start signal and generating the second measurement start signal of the interlocked second blood pressure measurement device 200 is described above with reference to FIGS. 5 and 6. It is not limited to the example. It is illustrated that the first blood pressure measuring device 100 and the second blood pressure measuring device 200 may be started in cooperation when there is no separate input of the subject or when the subject is input.

In addition, when there is an input of the subject at the start of measurement, the first measurement start signal and the second measurement start signal are input through the input to the separate controller (not shown) as well as the input to the input unit 127 of FIG. 6 described above. Of course it can be created. The separate controllers may be configured in various forms, and may be connected to the first blood pressure measurement device 100 and the second blood pressure measurement device 200 by wire or wireless.

Thereafter, as illustrated in FIG. 4, the first blood pressure measurement device 100 transmits a second measurement start signal to the second blood pressure measurement device (S300).

The first blood pressure measuring device 100 and the second blood pressure measuring device 200 measure the blood pressure of each arm of the subject. The first blood pressure measurement device 100 acquires a first measurement result signal (S400), and the second blood pressure measurement device 200 also acquires a second measurement result signal.

When blood pressure measurement is finished in the first blood pressure measurement device 100 and the second blood pressure measurement device 200, the first blood pressure measurement device 100 receives a second measurement result signal from the second blood pressure measurement device 200 (S500).

The first blood pressure measurement device 100 displays the blood pressure of the person to be measured based on the first measurement result signal and the second measurement result signal (S600).

FIG. 7 illustrates a screen in which the first blood pressure measurement device 100 displays a blood pressure of a person to be measured based on the first measurement result signal and the second measurement result signal in this step S600. Such a display screen may be displayed on the display unit 126 of the first blood pressure measurement device 100. In addition, data related to the blood pressure of the person to be measured can be shared from the first blood pressure measuring device 100 to the second blood pressure measuring device 200, and the display screen of FIG. 7 is also displayed on the display unit of the second blood pressure measuring device 200. Of course, the same can be displayed.

The displaying of the blood pressure of the subject (S600) may be performed by displaying the blood pressure of each arm of the subject to be measured based on the first measurement result signal and the second measurement result signal. Further, in this step (S600), the first blood pressure measuring device 100 calculates the average blood pressure of the blood pressure of both arms of the person to be measured based on the first measurement result signal and the second measurement result signal, and calculates the calculated average blood pressure. It may be performed in a manner that is indicated by the blood pressure of the subject.

Specifically, referring to FIG. 7, the blood pressure of each arm of the subject based on the first measurement result signal and the second measurement result signal may be displayed on the first region 71. At this time, the measurement results of the left (L) and the right (R) may be displayed including systolic and diastolic systolic, mean systolic and diastolic blood pressure (pulse). . Further, the average blood pressure of the blood pressure of both arms of the person to be measured may be calculated and displayed in the second region 72.

Furthermore, the first blood pressure measuring apparatus 100 may calculate a difference in blood pressure of both arms of a person to be measured based on the first measurement result signal and the second measurement result signal (S700).

The calculated difference in blood pressure of both arms can be displayed on the illustrated display screen 70 of FIG. 7. Referring to FIG. 7, the result of each measurement of left (L) and right (R) in the third region 73 is displayed by calculating the difference between systolic and diastolic blood pressure.

At this time, the first blood pressure measuring device 100 may determine whether the calculated difference in blood pressure between both arms is greater than or equal to a preset value, and display a notification message corresponding to the calculated difference in blood pressure between both arms when the difference is greater than or equal to a preset value. (S800).

For example, the notification message may be an acoustic signal, and may be displayed in various ways, such as a blinking signal coming into the third area 73 or a highlighting on the corresponding value. The notification message may be applied without limitation as long as it is a display means capable of recognizing that the difference in blood pressure between both arms is greater than a predetermined standard.

Next, with reference to FIG. 8, a description will be given of a method in which the first blood pressure measuring device 100 and the second blood pressure measuring device 200 end blood pressure measurement in response to an emergency stop signal.

8 is a flowchart illustrating a process in which the first blood pressure measurement device ends blood pressure measurement in response to an emergency stop signal.

The first blood pressure measuring apparatus 100 acquires an emergency stop signal (S81).

Here, the emergency stop signal is a threshold in which the pressure sensor 113 provided in the first blood pressure measuring device 100 detects a predetermined threshold pressure or higher, or the pressure sensor provided in the second blood pressure measuring device 200 is preset. It can be generated based on the case of detecting an abnormal pressure.

As another example, the emergency stop signal may be generated based on a user input to the first blood pressure measurement device 100 or the second blood pressure measurement device 200.

For example, the input of the person to be measured may be due to an input signal to the input unit 127 included in the first blood pressure measuring device 100, or sensed from the sensor unit 128 included in the first blood pressure measuring device 100. It can be a signal. In other words, the emergency stop signal may be input by the switch sensor of the emergency stop button of the input unit 127, and the user's voice input to the acoustic sensor of the sensor unit 128, the user's vibration input to the vibration sensor, or the like. An emergency stop signal can be input.

If both arms of the subject are fixed to the first blood pressure measuring device 100 and the second blood pressure measuring device 200, input to the input unit 127 may not be practical. In this case, in a situation where the blood pressure measurement is to be ended in an emergency, the person to be measured may make an emergency stop input to the first blood pressure measurement device 100 and the second blood pressure measurement device 200 through a loud sound or an arm waving action. You can. However, it is needless to say that the emergency stop signal is an exemplary one and the emergency stop signal may be input in various other ways.

The first blood pressure measurement device 100 ends the blood pressure measurement of the first blood pressure measurement device 100 in response to the emergency stop signal (S82), and the blood pressure of the second blood pressure measurement device 200 in response to the emergency stop signal The measurement end signal may be generated (S83), and the blood pressure measurement end signal may be transmitted to the second blood pressure measurement device 200 (S84) to end the blood pressure measurement.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, a person skilled in the art to which the present invention pertains may be implemented in other specific forms without changing the technical spirit or essential features of the present invention. You will understand. Therefore, it should be understood that the above-described embodiments are illustrative in all respects and not restrictive.

100… First blood pressure measuring device
110… Cuff
111… frame
112… Presser
113… Pressure sensor
120… main body
121… Air pump
122… Pressurized valve
123… Fine exhaust valve
124… Rapid exhaust valve
125… Electronic circuit device
126… Display
127… Input
128… Sensor part
130… Control
140… Communication
70… Display screen
71… Area 1
72… Area 2
73… Area 3

Claims (13)

delete In the first blood pressure measuring device in conjunction with the second blood pressure measuring device independent of the first blood pressure measuring device in a method of measuring the blood pressure of both arms of the subject,
Creating a communication session with the second blood pressure measuring device;
Obtaining a first measurement start signal;
Generating a second measurement start signal of the second blood pressure measurement device based on the first measurement start signal;
Transmitting the second measurement start signal to the second blood pressure measurement device through the communication session;
Acquiring a first measurement result signal of the first blood pressure measurement device and receiving a second measurement result signal from the second blood pressure measurement device; And
Displaying the blood pressure of the subject to be measured based on the first measurement result signal and the second measurement result signal; Including,
Acquiring the first measurement start signal,
Recognizing the insertion of the subject's arm into the first blood pressure measuring device;
Receiving a signal corresponding to the recognition of the insertion of the remaining arm of the subject from the second blood pressure measuring device through the communication session; And
Generating a first measurement start signal when the insertion of the subject's arm is recognized by the first blood pressure measurement device and a signal corresponding to the recognition of the insertion of the other arm is received from the second blood pressure measurement device; ; Including, both arms blood pressure measurement method. In the first blood pressure measuring device in conjunction with the second blood pressure measuring device independent of the first blood pressure measuring device in a method of measuring the blood pressure of both arms of the subject,
Creating a communication session with the second blood pressure measuring device;
Obtaining a first measurement start signal;
Generating a second measurement start signal of the second blood pressure measurement device based on the first measurement start signal;
Transmitting the second measurement start signal to the second blood pressure measurement device through the communication session;
Acquiring a first measurement result signal of the first blood pressure measurement device and receiving a second measurement result signal from the second blood pressure measurement device; And
Displaying the blood pressure of the subject to be measured based on the first measurement result signal and the second measurement result signal; Including,
Generating the second measurement start signal,
Two-arm blood pressure measurement to generate the second measurement start signal so that the second blood pressure measurement device starts blood pressure measurement at a second time point after a predetermined interval from a first time point at which the first measurement start signal is obtained. Way. In the first blood pressure measuring device in conjunction with the second blood pressure measuring device independent of the first blood pressure measuring device in a method of measuring the blood pressure of both arms of the subject,
Creating a communication session with the second blood pressure measuring device;
Obtaining a first measurement start signal;
Generating a second measurement start signal of the second blood pressure measurement device based on the first measurement start signal;
Transmitting the second measurement start signal to the second blood pressure measurement device through the communication session;
Acquiring a first measurement result signal of the first blood pressure measurement device and receiving a second measurement result signal from the second blood pressure measurement device; And
Displaying the blood pressure of the subject to be measured based on the first measurement result signal and the second measurement result signal; Including,
The method of measuring the blood pressure of both arms,
After the step of transmitting the second measurement start signal to the second blood pressure measurement device,
Ending blood pressure measurement of the first blood pressure measurement device and the second blood pressure measurement device in response to an emergency stop signal; Including, both arms blood pressure measurement method. According to claim 4,
The step of ending the blood pressure measurement,
Acquiring the emergency stop signal;
Ending blood pressure measurement of the first blood pressure measurement device in response to the emergency stop signal;
Generating an end blood pressure measurement signal of the second blood pressure measurement device in response to the emergency stop signal; And
Transmitting a blood pressure measurement end signal of the second blood pressure measurement device to the second blood pressure measurement device through the communication session; Including, both arms blood pressure measurement method. The method of claim 5,
The emergency stop signal,
Both arms are generated based on the case where the pressure sensor provided in the first blood pressure measuring device detects a predetermined threshold pressure or higher, or the pressure sensor provided in the second blood pressure measuring device detects a predetermined threshold pressure or higher. How to measure blood pressure. The method of claim 5,
The emergency stop signal,
A method of measuring both arms blood pressure, which is generated based on a user input to an emergency stop sensor provided in at least one of the first blood pressure measuring device and the second blood pressure measuring device. The method of claim 7,
The emergency stop sensor,
A method of measuring both arms blood pressure, which is at least one of a switch sensor, an acoustic sensor, and a vibration sensor. According to claim 2,
The step of displaying the blood pressure of the subject,
Calculating an average blood pressure of blood pressure of both arms of the subject to be measured based on the first measurement result signal and the second measurement result signal; And
Displaying the calculated average blood pressure as the blood pressure of the subject; Including, both arms blood pressure measurement method. According to claim 2,
The step of displaying the blood pressure of the subject,
Displaying blood pressure of each arm of the subject to be measured based on the first measurement result signal and the second measurement result signal; Including, both arms blood pressure measurement method. The method of claim 9 or 10,
The step of displaying the blood pressure of the subject,
Calculating a blood pressure difference between both arms of the subject to be measured based on the first measurement result signal and the second measurement result signal; And
Displaying a difference in blood pressure between the arms; Further comprising, both arms blood pressure measurement method. The method of claim 11,
The step of displaying the difference in blood pressure between the arms,
When the difference in blood pressure between the arms is equal to or greater than a preset value, a corresponding alert message is displayed together, the method of measuring both arms blood pressure. In the blood pressure measuring device for measuring the blood pressure of both arms of the subject in conjunction with an additional blood pressure measuring device,
Create a communication session with the additional blood pressure measurement device, generate a second measurement start signal of the additional blood pressure measurement device based on a first measurement start signal, and add the second measurement start signal to the additional blood pressure through the communication session. Transmitting to a measurement device, obtaining a first measurement result signal, receiving a second measurement result signal from the additional blood pressure measurement device, and based on the first measurement result signal and the second measurement result signal, Display blood pressure,
Recognizing the insertion of the subject's arm in the blood pressure measuring device, receiving a signal corresponding to the recognition of the insertion of the rest of the arm of the subject from the additional blood pressure measuring device through the communication session, the blood pressure measuring device When the insertion of the subject's arm is recognized and a signal corresponding to the recognition of the insertion of the other arm is received from the additional blood pressure measurement device, the first blood pressure measurement device generates the first measurement start signal.

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