KR100482245B1 - Computer system for detecting body information and method of operating it - Google Patents

Abstract

The present invention relates to a computer system for measuring physical information and a method of operating the same, which can efficiently combine various measuring sensors for measuring the user's body information in one system, and can ensure the safe use of the user.

The computer system for measuring physical information according to the present invention includes an input unit for inputting information from the outside; A computer main body which processes the inputted information; An output unit for displaying the processed information to the outside; A computer system, comprising: a body information measuring unit coupled to the computer body unit to measure body information of a user; An intermediate board is further present between the computer main body and the body information measuring unit. 2). The intermediate board is combined by separating the body information measuring unit into a direct measurement sensor unit and an indirect measurement sensor unit, 3). The direct measurement sensor unit and the indirect measurement sensor unit may be electrically disconnected.

The present invention can be used by combining a plurality of measurement sensors in one computer system, there is an advantage that can be obtained a variety of body information of the user.

Description

Computer system for detecting body information and method of operating it}

The present invention relates to a computer system for measuring body information, and more particularly, to ensure the expandability and safe use of the user can be efficiently coupled to a single system of various measuring sensors for measuring the user's body information The present invention relates to a computer system for measuring physical information that ensures safety and a method of operating the same.

Increasing standards of living today are driving many people to care about their bodies. This interest has progressed to remote medical care systems using the Internet and medical treatment methods using such systems.

Such a remote medical system has a merit that a patient or a customer can acquire his / her physical information by various medical diagnostic equipments without directly visiting a medical institution such as a hospital, and can send such information to a medical institution. Is actively underway. In addition, due to the development of the Internet, such a diagnosis system and diagnostic technology or diagnostic equipment are actively applied as patents.

Introducing these patent applications, Korean Patent Laid-Open No. 2000-54062, "Telemedical Medical System Using the Internet"; Republic of Korea Patent Publication No. 2000-58592 "Internet-based bone density remote diagnosis system and method thereof"; Republic of Korea Patent Publication No. 2001-37228 "Remote medical care device and health care information system using the same"; Republic of Korea Patent Publication No. 2001-102866 "Bone Density Remote Diagnosis System"; Republic of Korea Patent Publication No. 2002-9724 "Remote medical measurement apparatus and treatment method"; For example, Korean Unexamined Patent Publication No. 2002-9302, "Unmanned remote checkup system and method."

By the way, the prior art is that the remote medical care can be carried out by transmitting the physical information of the patient to a medical institution or a central control system using the Internet or wireless in a remote place without a medical institution. However, in the case of any of the above patent applications, only the concept of a remote diagnosis system and a diagnosis method is presented in abstract, and no specific equipment or device capable of realizing such an abstract concept is presented at all.

On the other hand, as for the remote diagnosis system, Korean Laid-Open Patent Publication No. 1998-24940 "Ultrasound diagnosis imaging system having worldwide access to diagnostic information and images" is introduced. However, the above-mentioned patent application focuses only on what program can use the communication network of the Internet, and there is no mention of measuring equipment that does not use an ultrasound image. Therefore, even if the above-mentioned remote diagnosis system is invented as a perfect technology, it can be applied only to an ultrasonic imaging system, it cannot be applied to other measuring devices, and it cannot be used in combination with other measuring devices. Have.

In addition, belonging to the remote medical measurement device, Korean Utility Model Registration No. 20-284121 "Computer medical diagnostic card"; Republic of Korea Patent Publication No. 2001-96186 "Integrated Medical Diagnostic Device"; In addition, the Republic of Korea Patent Registration No. 10-346081 "home medical measurement terminal" and the like are introduced.

In Patent Registration No. 10-346081, which relates to a home medical measurement terminal, it mainly measures body temperature, blood pressure, and the like, and these measurement sensors are coupled to a single device. However, only the functions performed by the measurement sensors introduced in the specification are introduced in the terminal, and there is no room for further measurement sensors to be added. In addition, there is no mention of the safety of the user by the above-mentioned measurement sensors.

In addition, Patent Publication No. 2001-96186 discloses a medical diagnostic apparatus in which a user can easily measure several items using a single device. In other words, the medical diagnostic apparatus is configured to obtain various body information of the user, for example, electrocardiogram, non-vascular blood pressure, blood oxygen saturation, blood alcohol concentration, blood sugar, body temperature, body fat, etc. by using one sensor unit. will be. However, even in the above-mentioned publication, it is still a question whether it is possible to additionally combine other measuring sensors in addition to the measuring sensors introduced in the specification, and furthermore, any safety specification that can be generated by simultaneously operating a plurality of measuring sensors. There is no suggestion at all.

By the way, in the medical equipment that obtains the user's body information, the question of how accurately the user's body information can be obtained is also important, but prevents the user's safety accident due to the use of the measuring device in the process of obtaining the body information. Is a more important factor. In the above body information, non-vascular blood pressure and body temperature can be measured without directly flowing a current to the user's body, whereas in the case of the electrocardiogram, blood oxygen saturation, blood sugar, body fat, etc. This is because the current flows directly into the body and is measured, and therefore, there is always a possibility that the user may cause an electric shock due to the current applied to the body.

However, all the above-mentioned patent applications and registered patents have been found to have no consideration in this regard.

As such, the various remote diagnosis systems presented in the related art simply do not deviate from the presentation of ideas, couple one measuring sensor to one measuring device, or combine multiple measuring sensors to one measuring device. However, there is no possibility of further expansion, and it also has the disadvantage that no safety device is involved at all by integrating and combining a plurality of measurement sensors.

Accordingly, an object of the present invention, in the system for measuring body information remotely installed, it is possible to sufficiently ensure the additional expandability of the measuring sensor in order to efficiently measure the various body information of the user (patient), and at the same time It is to provide a computer system for measuring physical information that can ensure safety.

Another object of the present invention is to provide a method for more efficiently, sequential and safe operation of the computer information measuring computer system installed at a remote location.

The computer system for measuring physical information according to the present invention is characterized by adopting an intermediate board capable of dividing and combining a plurality of measurement sensors into two groups and electrically disconnecting a power supply source supplied to each of them.

The present invention relates to a computer system for measuring physical information and a method of operating the same, which can efficiently combine various measuring sensors for measuring the user's body information in one system, and can ensure the safe use of the user.

The computer system for measuring physical information according to the present invention includes an input unit for inputting information from the outside; A computer main body comprising a control device for controlling a computer system, a central processing device for processing various inputted information, a memory device for storing and storing processed information, and a communication device for transmitting and receiving the processed information to the outside. Wow; An output unit for displaying the processed information to the outside; A computer system coupled to the computer main body, the computer system comprising a body information measuring unit for measuring and transmitting the user's body information back to the computer main body. An intermediate board is further present between the computer main body and the body information measuring unit. 2). The intermediate board is combined by separating the body information measuring unit into a direct measurement sensor unit and an indirect measurement sensor unit, 3). The direct measurement sensor unit and the indirect measurement sensor unit may be electrically disconnected.

The operating method of the computer system for measuring physical information according to the present invention includes a start step in which a user inputs his or her basic personal information and physical information, checks whether each measuring device is abnormal, and prepares it; A measurement item selection step of selecting a measurement item for which the user wants to measure his / her physical information; A body information measuring step of measuring body information of a user through a measuring sensor corresponding to the selected measurement item; A measurement value display step of processing the measured body information and displaying the same; A sequential operation step of sequentially executing the next metric selected by the user; It includes.

In the present invention, the body information obtained in the above-mentioned body information measuring step may be stored in the memory unit of the computer system, and more preferably, it may be transmitted to the central control system through a communication means such as the Internet and integratedly managed. .

Hereinafter, with reference to the accompanying drawings, the present invention will be described in more detail. However, the accompanying drawings are to be described in more detail the technical spirit of the present invention, it is provided only to those skilled in the art more easily, it is obvious that the technical spirit of the present invention is not limited thereto. .

FIG. 1 shows a schematic conceptual diagram of a computer system for measuring body information, which is conventionally used as a medical device for measuring body information.

Conventional body information measurement computer system 100 is currently used in direct coupling of several measurement sensors to a computer system that is common today. Looking at this further, the conventional computer information measuring system includes an input unit 110 for inputting information from the outside, which is usually composed of a keyboard and a mouse. In addition, the system includes a computer main body 120. The computer main body 120 includes a control unit 122 for controlling the entire system, and a central processing unit for processing various types of information input through the input unit. 124, a memory unit 126 for storing and storing the processed information, and a communication unit 128 for transmitting and receiving the processed information to the outside, wherein the communication unit 128 is connected to another system or the Internet. Communicating through In addition, the conventional system includes an output unit 130 for displaying the information processed in the computer main body to the outside, and typically has a monitor and a printer connected to the main body. In addition, the conventional system includes a body information measuring sensor 140 for measuring the body information of the user, and then transmit the measured data to the computer main body. However, since the body information measuring sensor 140 is directly coupled to the computer main body 120, it is difficult to combine a plurality of measuring sensors.

2 is a conceptual diagram schematically showing a computer system 300 for measuring physical information according to the present invention. The computer system 300 for measuring physical information of the present invention utilizes a conventional computer system 100 as it is, but has an intermediate board 200 that can cut off the power of the sensor and expandability of the measurement sensor for each other. The biggest feature is the point used.

Figure 3 is a conceptual diagram showing in more detail the intermediate board 200 as a preferred embodiment that can be most suitably used in the computer system for measuring body information 300 of the present invention. The intermediate board 200 is additionally installed between the computer main body 120 and the body information measuring sensor 140. This prevents the body information measuring sensor 140 from being directly coupled to the computer main body 120, and instead, allows a plurality of measuring sensors to sufficiently secure a space coupled to the intermediate board 200. The result is not only the effect of combining multiple measuring sensors, but also the possibility of combining more measuring sensors in the future.

In addition, the intermediate board 200 is divided into the body information measuring sensor 140 by direct measurement sensor unit 240 and indirect measurement sensor unit 250 and combined. In the present invention, the direct measurement sensor unit 240, in order to obtain the user's body information, not only uses the power energy supplied to the measurement sensor in its own measurement sensor but also directly flows to the user's body to the user's body It refers to a measuring sensor that obtains information. Representative examples thereof include an electrocardiogram, a body fat analyzer, and a blood glucose meter. In addition, in the present invention, the indirect measurement sensor unit 250 refers to a measurement sensor that uses power energy supplied to the measurement sensor only for the measurement sensor and does not directly apply power energy to the user's body. Representative examples include blood pressure monitors and spirometry. In the present invention, the reason for combining the body information measurement sensor 140 into the direct measurement sensor unit 240 and the indirect measurement sensor unit 250 is because of the power applied to the indirect measurement sensor unit 250. This is to prevent energy from flowing directly into the body of the user (patient), and only the power energy supplied to the direct measurement sensor unit 240 flows into the body of the user (patient). As a result, the electric shock or the electric shock which may be incurred by the user (patient) by the power energy supplied to the indirect measurement sensor unit 250 may be safely prevented. These safety measures are further ensured by the components that cut off their electrical flow as introduced below. In this case, reference numeral 242 is a power supply unit for supplying power energy to the direct measurement sensor unit 240, and reference numeral 252 is a power supply unit for supplying power energy to the direct measurement sensor unit 240.

In addition, the intermediate board 200 is configured to electrically disconnect the direct measurement sensor unit 240 and the indirect measurement sensor unit 250. This function is performed by the safety supplement 270, which is installed between the multi-channel selection unit 230 and the direct measurement sensor unit 240. The safety supplement unit 270 enables communication between the computer main body 120 and the direct measurement sensor unit 240, while the indirect measurement sensor unit 250 and its power supply unit 252. ), The electrical signal and the current thereof are prevented from flowing into the direct measurement sensor unit 240, thereby preventing the power supplied to the indirect measurement sensor unit from being applied to the direct measurement sensor unit 240. As the most preferred embodiment of the safety supplement 270, the current energy is converted into optical energy at one end and sent to the other side, and the other side of the safety supplementary unit 270 is converted to current energy and acts to operate. And optocouplers.

On the other hand, the other components of the intermediate board 200 that can be most suitably used in the computer system 300 for measuring body information of the present invention will be described.

The intermediate board 200 transmits and receives a control signal transmitted from the computer main body 120 and also transmits the data measured by the measurement sensors 240 and 250 to the computer main body 210 again. ) Is included. The communication unit 210 transmits and receives various electrical signals or information between the computer main body 120 and the measurement sensor unit for measuring the user's body information, and may be configured using conventional communication equipment. . In addition, the intermediate board 200 includes a local controller 220 for controlling the components of the intermediate board in accordance with the control signal of the computer main body 120. The area controller 220 controls the entire system of the intermediate board according to the control signal received from the computer main body 120.

In addition, the intermediate board 200 includes a multi-channel selector 230 for selectively opening and closing only a specific channel among a plurality of channels according to the control signal of the local controller 220. The multi-channel selector 230 opens and closes a communication path between the computer main body 120 and the plurality of body information measuring sensors 240 and 250 according to whether the selected channel is opened or closed. In the present invention, the reason for using the multi-channel selector 230 is to combine a plurality of body information measuring sensors, in order to secure a smooth and efficient communication path for the multiplexer (MUX) and demultiplex It is more preferable to use (DEMUX). The operation sequence of the multi-channel selector 230 is performed according to the control signal of the local controller 130. In addition, the intermediate board 200 includes a plurality of connector units 280 to which the direct measurement sensor unit 240 and the indirect measurement sensor unit 250 are coupled.

4 is a photograph of an actual product of the computer system for measuring physical information according to the present invention. At this time, Figure 4a is the electrocardiogram, body fat meter, and blood glucose meter, etc. are coupled to the direct measurement sensor unit 240, the indirect measurement sensor unit 250, the front of the product, such as blood pressure meter, spirometry, and thermometer Figure 4b is a photograph of the right side of the actual product, Figure 4c is a photograph of the screen actually displayed on the LCD monitor of the output unit 130 as a result of the normal operation of the actual product. 4A and 4B, it can be seen that a plurality of measurement sensors are coupled to the computer main body (actually the intermediate board 200). According to FIG. 4C, three ECG waveforms and 1 It can be seen that pulse pulses, one spirometry graph, and a large number of measurement data are displayed on the LCD screen.

In addition, the present invention relates to a method for operating the computer system for measuring the body information, which is introduced as follows. 5 is a block diagram briefly introducing a method of operation according to the present invention.

One). Start step:

This is a step in which after operating the system of the present invention, a user or patient operating the system inputs his own basic personal information and physical information. In this step, it is checked whether the system of the present invention is operating normally, and inputs basic personal information of the user or patient and basic body information such as height, weight, blood type of the user. The input method may use a keyboard of the input unit 110 or a mouse.

2). Metric selection step (S102):

This is a step of selecting an item to be measured from the body information of the user or patient using the system of the present invention. As a measurement item, for example, body fat measurement, electrocardiogram measurement, blood glucose measurement, blood oxygen saturation measurement, etc. can be exemplified as a direct measurement method of directly measuring a current flowing through a user's body, and not directly flowing a current to a user's body. Indirect measurement methods include blood pressure measurement and spirometry. The user may simply select a measurement item to be measured by clicking the selection button of the input unit 110. For example, the selection button can be configured to display on the LCD monitor as shown in FIG. When the user selects a measurement item through the selection button, the selection information reaches the intermediate board 200 via the computer main body 120, which in turn passes through the local control unit 220 of the intermediate board. 230) is activated, and only the selected channel is opened to open a communication path, and then ready to operate the selected measuring sensor. If the user selects the direct measurement sensor unit 240, after checking whether there is an abnormality of the safety supplement unit 270 and whether it can be operated, the direct measurement sensor unit 240 is operated.

3). Body information measurement step (S103):

The user selects a specific item and then measures information about the user's or patient's body through a measurement sensor corresponding to the item. The measurement method of the body information corresponding to each measurement item may be performed in different ways depending on the operation method of each measurement sensor. The operation method of each measurement sensor may be performed by a conventional method, or may be performed by a method independently developed by the present inventors according to measurement items. However, the operation method of the measurement sensor is beyond the scope of the present invention, a detailed description thereof will be omitted. Data measured by the various measuring sensors are transmitted to the computer main body 120 via the intermediate board 200.

4). Measured value display step (S104):

This means that when the data measured by the measuring sensor is transmitted back to the main body 120, the central processing unit 124 processes it by the control device 122 therein, and then the processed final The data is displayed to the outside through the output unit 130. In this case, the output unit 130 may be a CRT screen that the user can easily check his or her body information with the naked eye, an LCD screen, or may be a printer that can print their final data on the paper. The output unit 130 is more preferably configured to display a variety of body information of the user on a single screen. 4, as described above, the output unit 130 includes data such as body temperature, weight, height, blood sugar, urine glucose, blood pressure, blood oxygen saturation, body fat, and the like, together with a user's electrocardiogram, pulse pulse, and lung capacity. The case is shown on the screen. The various types of data may be displayed in the order of the measuring sensors according to the control method, or may be simultaneously displayed after the measurement of all items is completed. Generally, items calculated with a predetermined waveform, such as an electrocardiogram, require some time after measurement, but items calculated with a predetermined number, such as blood sugar, are displayed simultaneously with the measurement.

5). Sequential Operating Steps (S105):

This is a step in which the user first measures the body information and then measures body information about another item in turn. This can be selected by the user manually specifying the metrics, or they can be assigned sequentially in the first preparation phase. In addition, if necessary, the selected order may be canceled and respecified, or replaced with another item. In this case, the measurement method for each selected item is the same as the above steps and steps. If there are no more measurement items or the user wants to exit, the user can exit by clicking the end button (not shown).

When the computer system for measuring physical information according to the present invention is connected by a communication means such as the Internet, the above-described measured values can be transmitted to the central control system, where it can be integrated and managed.

Although the computer system for measuring physical information according to the present invention has been described in detail above, this is only for describing the most preferred embodiments of the present invention, and the present invention is not limited thereto. Is determined and defined. In addition, anyone of ordinary skill in the art will be able to make various modifications and imitations by the description of the specification of the present invention, but it will be apparent that this is also outside the scope of the present invention.

As described above, the present invention employs an intermediate board between the computer main body and the measurement sensor, so that a plurality of measurement sensors can be efficiently coupled to one computer system. Accordingly, the present invention not only obtains a variety of measurement items that can variously obtain user's body information through one computer system, but also expands the measurement items that can further combine various other measurement sensors. There is an advantage to have.

In addition, since the present invention can display the user's body information on one output unit, the user can check his or her body information at a glance, through which there is an advantage that can check the state of their health comprehensively .

In addition, the present invention is divided into a direct measurement sensor unit that directly applies power to the user's body and an indirect measurement sensor unit that does not, and since they are electrically disconnected from each other, the user is electrically The advantage is that there is no fear of accidents.

In addition, the present invention can be connected to the central control system through a communication means such as the Internet, it can be integrated management through.

1 is a schematic diagram schematically showing a conventional computer system for measuring physical information,

2 is a conceptual diagram schematically showing a computer system for measuring physical information according to the present invention;

3 is a conceptual view showing in detail the middle board corresponding to the main part as a preferred embodiment of the present invention,

4 is a photograph of an actual product of the computer system for measuring physical information of the present invention, FIG. 4A is a front photograph thereof, FIG. 4B is a photograph of the right side thereof, and FIG. 4C is a photograph of an LCD screen forming an output unit.

5 is a flowchart schematically illustrating a method of operating a computer system for measuring physical information according to the present invention.

♠ Explanation of symbols for the main parts of the drawings.

110: input unit, 120: main body,

130: output unit, 200: middle board,

210: communication unit, 220: local control unit,

230: multi-channel selector, 240: direct measurement sensor,

250: indirect measurement sensor unit, 270: safety supplement unit

Claims (4)

delete An input unit for inputting information from the outside; A computer main body comprising a control device for controlling a computer system, a central processing device for processing various inputted information, a memory device for storing and storing processed information, and a communication device for transmitting and receiving the processed information to the outside. Wow; An output unit for displaying the processed information to the outside; In the computer system coupled to the computer main body and configured to measure the body information of the user body information measuring unit for transmitting back to the computer main body, An intermediate board is further present between the computer main body and the body information measuring unit. a). A communication unit for transmitting and receiving a control signal transmitted from the computer main unit and transmitting the measurement signal transmitted from the measurement sensor to the computer main unit; b). A local control unit for controlling the component in accordance with a control signal of the computer main unit; c). A multi-channel selection unit for selectively opening and closing only a specific channel according to a control signal of the local control unit, and opening and closing a communication path between a computer main body unit and a plurality of body information measuring sensor units according to whether or not the selective opening and closing is performed; d). A plurality of indirect sensor connector units coupled to an indirect measuring sensor unit using power energy supplied to the measuring sensor only in the measuring sensor but not directly applying power energy to a user's body; e). A plurality of direct sensor connector units coupled to a direct measurement sensor unit using power energy supplied to the measurement sensor for the measurement sensor as well as directly transmitting power energy to the user's body to obtain user's body information; f). A safety supplement unit provided between the multi-channel selection unit and the direct measurement sensor unit and as a means for electrically disconnecting the direct measurement sensor unit and the indirect measurement sensor unit; g). And a power supply unit supplied to the direct measurement sensor unit and a power supply unit supplied to the indirect measurement sensor unit. The method of claim 2, The safety supplement portion is an optocoupler that performs the function of converting the current energy into optical energy at one end and sending it to the other side, and at the opposite side to convert the optical energy into current energy again. Computer system for measuring physical information. An input unit for inputting information from the outside; A computer main body comprising a control device for controlling a computer system, a central processing device for processing various inputted information, a memory device for storing and storing processed information, and a communication device for transmitting and receiving the processed information to the outside. Wow; An output unit for displaying the processed information to the outside; In the method of operation of a computer system coupled to the computer main body and composed of a body information measuring unit for measuring the user's body information and transmits back to the computer body, a). Inputting basic personal information and physical information of the user, checking whether each of the measuring devices is abnormal, and preparing the same; b). When the user selects a measurement item to measure his / her physical information, the selection information reaches the intermediate board via the computer main body, which in turn activates the multi-channel selector via the local controller of the intermediate board to open only the selected channel. A measurement item selection step of establishing a communication path and then preparing to operate only the selected measurement sensor; c). A body information measuring step of measuring body information of a user through a measuring sensor corresponding to the selection item; d). The measured body information is transmitted to the computer main body via the intermediate board, and then processed by the central processing unit of the computer main body, and the measurement is performed to externally display the processed final body information data through the output unit. A value display step; e). A sequential operation step of sequentially executing the next metric selected by the user; Method of operating a computer system for measuring physical information comprising a.