KR20180039904A - Diagnostic and incentive spirometer using smartphone application - Google Patents

Abstract

The present invention relates to a spirometer. More specifically, a smartphone processes signal processing and display functions with an application to be cheaper and easier than a diagnostic spirometer integrating a gas flow meter, a signal processing unit, and a display unit while having an inducible spirometer function as well. According to the present invention, the spirometer, which can be used as the diagnostic spirometer and the inducible spirometer by using a smartphone application, includes: a gas flow meter including a gas inlet coupled with an exhalation tube and a gas outlet coupled to an inhalation tube; a smartphone which supplies power to the gas flow meter and transmits electrical signals proportional to the flow amount measured by the gas flow meter; and an application which is downloaded to the smartphone, calculates and displays the flow meter, lung capacity values, and indicators related to the flow meter and lung capacity by using the electrical signals transmitted from the gas flow meter, stores the measurement history, and diagnoses the lung functions.

Description

[0002] Diagnostic and incentive spirometer using smartphone application [0003]

The present invention relates to a spirometer, and more particularly, to a spirometer which processes a function of a signal processing and a display by an application so that the cost is low and the cost is low as compared with a diagnostic spirometer having a gas flow meter, a signal processing unit, And more particularly, to a diagnostic spirometer and a spirometer for combined use of an inducible spirometer.

In general, a diagnostic spirometer is a device that determines whether a lung function is normal by measuring lung capacity. In particular, lung capacity is an important measure in determining asthma and chronic obstructive pulmonary disease (COPD).

FIG. 3 is a conventional diagnostic spirometer including a body constituted by an electronic circuit and a display such as a gas flow meter, an infusion tube inserted into a gas inlet, and signal processing and data storage.

Such a conventional diagnosis spirometer is provided with a gas flowmeter that measures the flow rate when the user breathed out, integrates it over time to calculate the volume of vital capacity, stores data, displays a result, and the like Expensive hardware is inevitable.

Because of this, the price is very expensive, and even for personal use, the price is high at several hundred thousand won, so patients with abnormal pulmonary function have a lot of financial difficulties in measuring lung capacity or have to visit hospital to measure lung capacity there was.

In addition, patients with abnormal pulmonary function often did not have an inducible spirometer function to measure breathing to improve pulmonary function.

FIG. 4 is a conventional induction spirometer, which is a spirometer used when a patient with pulmonary dysfunction sucks a mouthpiece of an inspiratory tube into the mouth and breathes while maximizing the flow rate.

Patients use an inducible spirometer while trying to maximize the height of the ball while viewing the ball in proportion to the flow rate. The use of an inducible spirometer several times a day is known to improve lung function.

Conventional inducible spirometers have a disadvantage in that they are difficult to measure accurately and can not store measurement data because they are manufactured in a mechanical manner because they are very expensive when they are implemented electronically.

KR Patent No. 1132595 (Mar. 27, 2012)

The present invention has been proposed in order to solve the problems of the prior art as described above, and the smartphone provides a signal processing unit, a display unit, a memory, and the like which occupies a large portion in the price of the spirometer, so that the price of the diagnostic spirometer can be significantly lowered, Function for signal processing, diagnosis, history management and display for an inducible spirometer which is used to improve the function. It is also possible to use a smartphone application that can be implemented accurately and conveniently by using an application, and a diagnosis spirometer and an induction spirometer together Thereby providing a spirometer.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, there is provided a spirometer comprising: a gas-flow meter including a gas inlet to which an inhalation tube is coupled and a gas outlet to which an inhalation tube is coupled; A smartphone for supplying power to the gas flow meter and receiving an electric signal proportional to a flow rate generated by the gas flow meter; And an application for calculating and displaying flow rate, lung capacity and spirometry-related index by an electric signal downloaded from the gas flow meter downloaded to the smartphone, storing measurement history, and diagnosing pulmonary function; And a control unit.

As another embodiment of the present invention, there is provided a gas flowmeter including a gas inlet to which an atria or an inhalation tube is coupled; A smartphone for supplying power to the gas flow meter and receiving an electric signal proportional to a flow rate generated by the gas flow meter; And an application for calculating and displaying flow rate, lung capacity and spirometry-related index by an electric signal downloaded from the gas flow meter downloaded to the smartphone, storing measurement history, and diagnosing pulmonary function; And a control unit.

The diagnostic spirometer and the spirometer combined with the induction spirometer using the smartphone application of the present invention having the above-described configuration have the following useful effects.

First, since the smartphone provides a signal processing unit, a display unit, and a memory, which are a large part of the spirometer price, the price of the diagnostic spirometer can be drastically reduced.

Second, the software for signal processing and display can be downloaded and implemented as an application. Similarly, the algorithm for determining whether the lung function is normal and the history management can be implemented by the downloaded application. Thus, the diagnostic spirometer can be implemented by providing only the gas flow meter.

Third, functions for signal processing, diagnosis, history management and display for an inducible spirometer used for improving lung function can be simultaneously implemented using an application.

Fourth, since the gas flowmeter and the smartphone are spatially separated through a certain length of cable, the patient can use the spirometer while trying to maximize the flow rate while watching the smartphone displaying the flow rate in real time. Other accurate flow measurement is possible and measurement data can be saved and the measurement history can be managed.

Brief Description of the Drawings Fig. 1 is a view showing a spirometer for both a diagnostic spirometer and an induction spirometer using a smartphone application according to the present invention;
FIG. 2 illustrates a display of a spirometer and a spirometer together with an induction spirometer using a smartphone application according to an embodiment of the present invention; FIG.
3 shows a diagnostic spirometer according to the prior art;
4 is a view showing an inducible spirometer according to the prior art.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present embodiment, the same names are used for the same components, and further description thereof will be omitted.

FIG. 1 is a block diagram of a spirometer for combined use of a diagnostic spirometer and an inducible spirometer using the smartphone application according to the present invention. FIG. 2 is a block diagram of a diagnostic spirometer using a smartphone application and a spirometer Fig.

The diagnosis spirometer using the smartphone application of the present invention and the spirometer combined with the inducible spirometer are basically a personal diagnostic spirometer which is a combination of a gas flow meter and a smartphone.

That is, when the user exhales or sucks in the gas flow meter, an electric analog signal or pulse is generated proportional to the flow rate, and the smartphone senses by the downloaded application and displays the volume of the lung capacity.

Specifically, the present invention comprises a gas flow meter 100, a smartphone 200, and an application (not shown), as shown in FIG.

The gas flowmeter 100 is provided with a gas inlet 110 through which an inhalation tube 130 is coupled and a gas outlet 120 through which an inhalation tube 140 is coupled.

The inhalation tube 130 may be in the form of a tube and may be inserted into the gas inlet 110 of the gas flow meter 100 and the inhalation tube 140 may be inserted into the gas outlet 120, particularly in the form of a flexible tube.

At this time, it is preferable that the gas flow meter 100 is provided with a mouthpiece 160 so that the handle 150 is protruded so as to be grasped by the hand, and the end of the inspiratory tube 140 is filled with the mouth and does not leak when breathing Do.

The gas flow meter 100 can be selectively applied to a turbine type, a differential pressure type, a mass flow rate type, and the like, which are commonly used.

The smartphone 200 supplies power to the gas flow meter 100 and receives an electric signal proportional to the flow rate generated by the gas flow meter 100.

The smart phone 200 is a mobile communication terminal capable of downloading an application to be described later, installing the application, operating the application, and selecting an execution menu while viewing a display screen.

The gas flowmeter 100 and the smartphone 200 are electrically connected by a separate cable 300. That is, one side of the cable 300 is connected to the smart phone 200 (for example, the USB terminal 210, Earphone terminal or the like) and the other side is electrically connected to the gas flow meter 100 (for example, the handle 150).

The cable 300 not only transmits the gas flow rate signal from the gas flow meter 100 to the smartphone 200 but also allows the gas flow meter 100 to receive power from the smartphone 200 Function.

It is preferable that the cable 300 is configured to have a sufficient length (for example, 30 cm or more) so that the user can hold the handle 150 of the gas flow meter 100 with one hand and hold the smart phone 200 with the other hand Do.

The application is downloaded to the smartphone 200, calculates and displays the flow rate, lung capacity and spirometry-related index by the electric signal transmitted from the gas flow meter 100, stores the measurement history, and diagnoses the lung function.

In another embodiment of the present invention, in the case of a turbine type gas flow meter in which a gas flow rate signal is generated in the form of an electric pulse in general, there is no directionality of the flow rate signal due to inspiration and exhalation. It can be used as a diagnostic spirometer or an inducible spirometer by inserting the breath tube 130 and inserting the breath tube 140.

That is, in this embodiment, the ventilator 130 or the inspiratory tube 140 can be selectively coupled to the gas inlet 110 of the gas flow meter 100 according to the use (diagnostic spirometer or induction spirometer).

Alternatively, as another embodiment of the present invention, regardless of the generation method of the gas flow rate signal, it is possible to use the apparatus as the diagnostic spirometer only by inserting the cephalic tube 130 into the gas inlet 110, It is possible to use only the inducible spirometer by interposing the valve 140 therebetween. That is, an example product which is used as only one spirometer, either a diagnostic spirometer or an inducible spirometer, will be included in the claims of the present invention.

First, the spirometer is inserted into the gas inlet 110 through the ventilator 130. After the user inserts the ventilator 130 into the ventilator 110, 30 mm in outer diameter, 60 mm in length) 130 in the mouth and exhale to operate as a diagnostic spirometer.

At this time, in the gas flow meter 100, an electrical signal proportional to the gas flow rate is generated, and the smartphone 200 integrates it over time to display the volume of the lung capacity on the display.

If necessary, various indicators related to pulmonary function (lung capacity) are calculated and displayed on the display, such as maximum gas flow rate, lung capacity for 1 second, or ratio of lung capacity for 1 second to total lung capacity.

In addition, graphs such as gas capacity or flow rate with time are displayed on the display, if necessary, and the diagnosis function downloaded in the form of an application is used to display whether the lung function is normal or not.

The various indicators and graphs thus measured are stored in the smartphone 200 together with the measurement time point information, so that the user can view the measurement history when necessary, thereby exercising the function of managing the lung health. And it can be used as a data to allow a doctor to diagnose pulmonary function and to take care of a patient.

The spirometer of FIG. 1 includes an inhalation pipe (typically an outer diameter of 20 mm, a length of 300 mm) 140 inserted into a gas outlet 120, and a user inserts the mouthpiece 160 into the mouth, Spirometer.

That is, when the user holds the mouthpiece 160 in his mouth and breathed, the smartphone 200 displays the maximum flow rate on the display in real time with a flow indicator similar to the conventional mechanical induced spirometer as shown in FIG. 2 (a) Or a real time flow rate is displayed on the display on the display together with the measured flow rate as shown in FIG. 2 (b), which was not implemented in the conventional mechanical induced spirometer.

This allows the user to breathe while trying to maximize the flow while viewing the flow indicator or the real time flow graph over time. Using the induction spirometer several times daily will improve the lung function.

In addition, it is possible to calculate and display the spirometric capacity that the conventional mechanical induction spirometer can not realize. In addition, the maximum flow rate and the spirometer volume are stored in the smartphone together with the measurement point information. Can be managed.

Therefore, while the conventional inducible spirometer is inevitably provided mechanically for a price reason, the present invention provides the necessary hardware and software in a smartphone, so that it can be implemented electronically at a low price, so that the measurement value is accurate and the measurement history is managed There is an advantage that it can be.

In addition, since the smartphone having excellent hardware and display is used, it is not only convenient for the user to use, but also has an advantage that the function is more excellent and convenient to use than the existing spirometer because the display is intimate to the user.

In addition, by transmitting the measured data to the hospital using the communication function of the smartphone, it is possible to receive the diagnosis of the medical staff without visiting the hospital directly.

As a result, the present invention can provide a spirometer that is inexpensive, superior in performance, and easy to use as compared with the existing diagnostic spirometer, and can also provide an inducible spirometer function for improving the lung function of the user.

It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. It is self-evident to those who have.

Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof.

100 ... gas flow meter 110 ... gas inlet
120 ... gas outlet 130 ... exhalation tube
140 ... lifting tube 150 ... handle
160 ... mouthpiece 200 ... smart phone
210 ... USB terminal 300 ... Cable

Claims (2)

A gas flowmeter having a gas inlet to which an inhalation tube is coupled and a gas outlet to which an inhalation tube is coupled;
A smartphone for supplying power to the gas flow meter and receiving an electric signal proportional to a flow rate generated by the gas flow meter; And
An application that is downloaded to the smartphone and calculates and displays the flow rate, lung capacity and spirometry-related index by the electric signal transmitted from the gas flow meter, stores the measurement history, and diagnoses the lung function;
A spirometer and a spirometer for both a diagnostic spirometer and an induction spirometer using a smartphone application. A gas flow meter provided with a gas inlet to which an inhalation tube or an inhalation tube is coupled;
A smartphone for supplying power to the gas flow meter and receiving an electric signal proportional to a flow rate generated by the gas flow meter; And
An application that is downloaded to the smartphone and calculates and displays the flow rate, lung capacity and spirometry-related index by the electric signal transmitted from the gas flow meter, stores the measurement history, and diagnoses the lung function;
A spirometer and a spirometer for both a diagnostic spirometer and an induction spirometer using a smartphone application.

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