SK8459Y1 - Miniature contact smart measuring device with wireless data transfer of non-invasive physiological parameters measurement of the monitored subject and the measuring system - Google Patents

Abstract

A miniature contact smart measuring device with wireless data transmission for non-invasive measurement of physiological parameters of a subject is formed by a body (1) in which is placed in the holder (2) a flat battery (3), wherein at least one printed circuit board (4) is incorporated a microprocessor (5) with at least connected thermometer circuits (6) and a wireless communication/transmission module (9) with an antenna (10) and/or magnetometer circuits (7) and/or accelerometer/gyroscope circuits (8).

Description

Technical field

The technical solution relates to a non-invasive measurement of the physiological parameters of the subject under observation by means of an electronic miniature contact smart device which can be operated remotely by means of a measuring system. The miniature device is capable of measuring body temperature, the position of the subject, e.g. the measured person or animal, and its associated parameters as well as the individual physiological parameters separately. The measurement is triggered remotely by a smart device to which the measured data is subsequently transmitted. Technical solution falls in the field of medical devices.

BACKGROUND OF THE INVENTION

Measurement of basic physiological parameters is currently carried out by medical devices that require the attention of the measured person. Each of the physiological parameters is usually measured by a separate medical device. The measurement is most often carried out at home for informational purposes or in medical facilities where the measurement is carried out by a trained person. The means by which the temperature and other physiological parameters are measured must be operated almost exclusively before and during the measurement, requiring cooperation with the person undergoing the measurement and thus impairing their comfort.

The most common measurements in medical practice are body temperature measurements. This measurement is currently carried out either by the non-contact method by sensing infrared radiation or by the contact method by applying a thermometer. In both cases, measurements are required by the operator. Body temperature measurement is the most basic measurement, and in clinical practice, temperature change signals a change in the body's condition. This is why the temperature is measured at regular intervals. In the case of a patient's hospitalization, taking temperature measurements and recording data is laborious, while the patient's comfort is impaired while the patient is resting. Conventional temperature measurement methods do not record previous physical activity and therefore do not evaluate the causes of the patient's temperature change. Oftentimes, changes can occur after certain physical activities have been carried out, which are only marginally taken into account in such cases.

These shortcomings provided the opportunity to address this problem by appropriate technical means. In order to optimize the measurement mode, a non-invasive measurement system of the subject's physiological parameters was designed so that wireless transmission of the measured parameter data occurs in the measurement process.

As a result of this effort, a miniature contact smart metering device with wireless data transmission of a non-invasive measurement of the physiological parameters of a subject of interest and a metering system according to this utility model are described.

The essence of the technical solution

These shortcomings arising from the prior art eliminate the measurement of physiological parameters such as temperature, the position of the subject of interest, e.g. of a patient or animal such as a dog or the like, and possibly other associated parameters by means of a small intelligent measuring device which, by virtue of its dimensions and other parameters, acts non-invasively on the measured person and can be controlled remotely, thus requiring no direct interaction of the subject with service personnel and measurements can be performed without disturbing the subject. Optionally, it is possible to measure physiological parameters during the physical activity of the subject, and thus observe the effect of physical activities on its physiological parameters. The essence of remote measurement control by a small smart metering device lies in the solution of wireless communication with a smart device or other device capable of transmitting control commands via the wireless network and also receiving the measured data via the wireless network. The non-invasive measurement of the subject's physiological parameters with wireless data transmission utilizes physiological parameters sensors, in particular temperature, heart activity, and subject's location associated in a miniature contact smart measuring device that is contactable and removable to the subject's body. The physiological parameter data collected by the wireless communication / transmission module is transferred to the control and collection center, from where the miniature contact smart metering device is remotely wirelessly controlled. In the patient-monitored person, the miniature contact smart measuring device is placed under the arm of the person being monitored, while not restricting the person being monitored due to the small size and ergonomic design.

The essence of the technical solution of a miniature contact smart measuring device with wireless data transmission of non-invasive measurement of physiological parameters of the monitored subject is that in one case it is formed by a body as an open flat skeleton (case) in which it is

A flat battery is provided, wherein at least one printed circuit board incorporates a microprocessor with at least the connected thermometer and wireless communication / transmission module with antenna and / or magnetometer circuits, and / or accelerometer / gyroscope circuits to detect the position and movement of the subject . Voltage converter circuits may also be incorporated on the printed circuit board. There are several embodiments of a miniature contact smart metering device, where in one case it has two printed circuit boards, each containing a connector for interconnecting them with an interface cable, or the device has a double-sided printed circuit board.

In the latter case, the miniature contact smart metering device consists of a holder in which a flat battery is located, wherein at least one printed circuit board incorporates a microprocessor with at least thermometer circuits and a wireless communication / transmission module with antenna and / or magnetometer circuits connected; or an accelerometer / gyroscope circuit to detect the position and movement of the subject. All these components of the device are encased in a body of non-harmful health circular or oval ergonomic shape.

From a constructional point of view, the miniature contact smart measuring device has a circular or oval body having a contact surface at least partially adhesive and / or sticky. Again, there are several embodiments to provide the body with an adhesive and / or adhesive e.g. layer. It is possible for an adhesive ring or ring to be applied to the contact surface of the body. Alternatively, it may be a strap with this device.

In terms of power, a long-lasting battery can be used in one case and the device is operational until the battery is depleted. If the device body is openable, the battery can be replaced. Or in the latter case, the battery can be charged without contact.

The described device is incorporated into a non-invasive measurement system of the subject's physiological parameters comprising at least one miniature contact smart metering device with wireless data transfer of the non-invasive measurement of physiological parameters of at least one subject that is connected to the control and collection center.

The advantages of a small intelligent measuring device for non-invasive wireless measurement of physiological parameters are evident from the effects they exert on the outside. In general, the originality of the solution lies in the possibility of non-invasive wireless measurement of physiological parameters without disturbing the comfort of the measured person. It is a tiny device with a diameter of about 2 to 10 mm, which is glued with double-sided tape on the skin of the subject - patient and subsequently is able to measure the patient's position, temperature or other physiological parameters at certain intervals. The patient gets such a device when entering the hospital and there is no need for medical staff - the nurse will have to go regularly to measure the temperature, it will not be necessary to wake the patient, etc. The patient will be wearing the device during the entire stay. The nurse remotely starts the measurement and then receives the measured data, which is stored in the database.

BRIEF DESCRIPTION OF THE DRAWINGS

The miniature contact smart metering device and the metering system according to the invention will be illustrated in more detail in the drawings, where FIG. 1 is a block diagram of a miniature contact smart metering device. In FIG. 2 shows a printed circuit board with a microprocessor, thermometer, magnetometer, and accelerometer / gyro circuit. In FIG. 3 shows an exploded assembly of a miniature contact smart metering device with a body, a battery and a printed circuit board. In FIG. 4 shows a disk body of a miniature contact smart metering device. In FIG. 5 shows a disc body of a contact smart metering device. In FIG. 6 shows a non-invasive measurement system for measuring physiological parameters of a subject with wireless data transmission.

EXAMPLES

The individual embodiments of the invention are presented for illustration and not as limitations of the technical solutions.

Those skilled in the art will find or be able to ascertain using no more than minor experimentation many equivalents to specific embodiments of the invention. Such equivalents will also fall within the scope of the following protection claims.

It is not a problem for those skilled in the art to optimally design a small intelligent measuring device for physiological parameters and select its elements, therefore these features have not been addressed in detail.

N E 8459 Υ1

Example 1

In this example of a particular embodiment of the present invention, a miniature contact smart metering device with wireless transmission of a non-invasive measurement of the physiological parameters of a subject of interest is shown, as shown in FIG. 1, 2 and 3. It is formed by a body 1 of non-hazardous matter, which is a cast holder 2 with a flat battery 3, e.g. CR 2450, wherein a microprocessor 5 with thermometer circuits 6, magnetometer circuits 7, accelerometer / gyroscope circuits 8 and other support and passive elements is incorporated on the lower circuit board 4. Circuit 11 of the voltage converter may also be incorporated on the lower printed circuit board 4. A wireless communication / transmission module 9 is mounted on the second printed circuit board 4, e.g. Wisol, with an antenna 10. Both the lower and upper printed circuit boards 4 have a connector 12 for interconnecting them with an interface cable. Alternatively, a double-sided printed circuit board 4 may be used. The body 1 shown in FIG. 4 and 5 has a contact adhesive and / or adhesive surface. An adhesive ring 13 or a circle (e.g., a double-sided adhesive tape) is applied from both sides to the adhesive and / or adhesive surface of the body 1 and is adhered to the body of the subject by the other side.

The operation and function of the device is based on wireless transmission of data from physiological parameters sensors, in particular temperature, heart activity and position of the subject, associated in a miniature contact smart measuring device, which is contactable and removable to the body (eg under the arm) . The physiological parameter data collected is transmitted via the wireless communication module to the control and collection center, from where the miniature contact smart measuring device is remotely wirelessly controlled.

Example 2

In this example of a particular embodiment of the present invention, a miniature contact smart metering device with wireless data transmission of a non-invasive measurement of the physiological parameters of a subject of interest, as shown in FIG. 1, 2 and 3. It is formed by an openable flat body 1 (housing), in which a flat battery 3, e.g. CR 2450, wherein a microprocessor 5 with thermometer circuits 6, magnetometer circuits 7, accelerometer / gyroscope circuits 8 and other support and passive elements is incorporated on the lower circuit board 4. Circuit 11 of the voltage converter may also be incorporated on the lower printed circuit board 4. A wireless communication / transmission module 9 is mounted on the second printed circuit board 4, e.g. Wisol, with an antenna 10. Both the lower and upper printed circuit boards 4 have a connector 12 for interconnecting them with an interface cable. Alternatively, a double-sided printed circuit board 4 may be used. The body 1 shown in FIG. 4 and 5 has a contact adhesive and / or adhesive surface. An adhesive ring 13 or a circle (e.g., a double-sided adhesive tape) is applied from both sides to the adhesive and / or adhesive surface of the body 1 and is adhered to the body of the subject by the other side.

Example 3

In this example of a particular embodiment of the present invention, a metering system using a miniature contact smart metering device with wireless data transfer of non-invasive measurement of the physiological parameters of a subject of interest, as shown in FIG. 6. The measurement system comprises at least twenty miniature contact smart metering devices 14 with wireless data transfer of non-invasive measurement of the physiological parameters of the twenty subjects (patients) that is connected to the control and collection center 16 via the wireless communication / transmission network 15.

Industrial usability

Miniature contact smart measuring device with wireless data transfer of non-invasive measurement of physiological parameters of the monitored subject and measuring system are usable in medical as well as home environment to ensure health care.

Claims (4)

PROTECTION REQUIREMENTS 1. A miniature contact smart measuring device with wireless data transmission of a non-invasive measurement of physiological parameters of a monitored subject, characterized in that it consists of a body (1) in which a flat battery (3) is placed in the holder (2). (4) the printed circuit board incorporates a microprocessor (5) with at least the connected thermometer (6) and wireless communication / transmission module (9) circuits with an antenna (10) and / or magnetometer circuits (7) and / or accelerometer circuits (8) / gyroscope. A miniature contact smart metering device according to claim 1, characterized in that circuit boards (11) of the voltage converter are incorporated on the printed circuit board (4). Miniature contact smart measuring device according to claim 1, characterized in that it has two printed circuit boards (4). 4. A miniature contact smart metering device according to claim 3, wherein: