EP2190345A1

EP2190345A1 - Health cabin

Info

Publication number: EP2190345A1
Application number: EP07823802A
Authority: EP
Inventors: Franck Baudino; Laurent Baudino
Original assignee: Filippi Laurent
Current assignee: H4D
Priority date: 2007-09-11
Filing date: 2007-09-11
Publication date: 2010-06-02
Also published as: CA2699401A1; JP2010538689A; US20090137882A1; AU2007358994B2; AU2007358994A1; US20100286492A1; JP6148814B2; EP3420892A1; BRPI0722004A2; US10445463B2; US9152769B2; WO2009034238A1; CA2699401C; CN101801260B; EP3420892B1; CN101801260A

Abstract

The invention relates to a health cabin (10) that comprises a housing (20), at least one armchair (30) and at least one measurement means (31, 32, 33, 34) for measuring data relative to the health of a user, characterised in that the cabin includes: means (41-50) for determining upon measurement at least one condition of said measurement; and means for storing in a data structure the result of said measurement in association with said condition.

Description

Health booth

BACKGROUND OF THE INVENTION The invention relates to a health booth for obtaining measurements for establishing a health check of a user or a population.

In known manner, the establishment of a health check requires the prior taking of a plurality of measurements (weight, pulse, temperature, etc.) under the supervision of medical personnel.

In some cases, these operations must be repeated at regular intervals to follow the evolution of measurements over time.

The compulsory presence of health personnel poses a number of problems. First, in emerging countries, where the density of health personnel is low, it is easy to understand that it is difficult to carry out a health campaign, particularly in emergencies, when there is an epidemiological risk.

In the other regions, the main obstacle to establishing large-scale individual or collective health check-ups is the relatively high cost involved in the presence of the above-mentioned health personnel.

In order to limit the aforementioned problems, US 5 544 649 discloses so-called "telemedicine" methods in which patients communicate with a doctor or health personnel remotely, via a telecommunications network, the patients. performing a number of measurements themselves transmitted to the doctor via the network.

It should first be noted that these solutions are not really satisfactory since they require the presence, certainly at a distance, of a health staff at the time of the measurements.

A solution that comes naturally to mind could be to have the patient perform the measurements himself, for example at home, out of contact with medical personnel, and then transmit the results of these measurements to a remote center. for further processing. However, such a practice is difficult to envisage because it is known that the results of medical measures are strongly related to the conditions under which the measurements are taken, and in particular to the state of stress or fatigue of the patient and to the meteorological environmental conditions. , sound and light at the time of measurement.

In other words, without the knowledge of this information, the results of the measurements would not be usable by the doctor with sufficient reliability.

Obiet and summary of the invention

The present invention aims primarily at solving the aforementioned drawbacks.

For this purpose, the invention relates to a health booth comprising a shell, at least one chair and at least one means for measuring a data relating to the health of a user. This cabin comprises:

means for determining, at the time of taking a measurement, at least one condition of the taking of measurement; and

means for recording, in a data structure, the result of this measurement in association with the aforementioned condition.

For the purposes of the invention, the term "health booth" should be interpreted broadly, and refers to any premises delimited by a shell, in which a user can practice by himself a number of measures relating to his health. without the need for medical personnel, even from a distance.

A health booth in the sense of the invention may for example be transportable to be temporarily installed at a given location. Health booths within the meaning of the invention may in particular be materialized by "mobile homes" or by health trucks of the type known for the collection of blood.

A health booth within the meaning of the invention may also be constituted by a fixed structure intended to be installed in places of passage, for example in airports or in hotels.

What differentiates the health cabins according to the invention from the known installations to date lies in the fact that the conditions environmental measures at the time of a measurement are recorded and associated in a data structure with the result of this measurement.

Thus, when the medical staff becomes aware of the measurement results, they are perfectly aware of the conditions under which these measurements were taken, which makes these data perfectly usable.

In one embodiment of the invention, the aforementioned determination means are able to measure at least one of:

- a position of the user; - the temperature inside and / or outside the hull;

- a sound level inside and / or outside the hull;

- a humidity level inside and / or outside the hull; and

- a level of brightness inside and / or outside the hull.

It is known that the following data are necessary for a good interpretation of at least one medical measure.

In particular, the position of the user strongly influences the measurement of his blood pressure. It is recommended to perform these measurements in a seated position, with the arm resting on a table and the inflatable cuff positioned on this arm at the level of the heart. It is also known that blood pressure measurements are strongly influenced by events that favor an increase in blood pressure figures, namely in particular exposure to cold, noise and physical exertion.

It is also known that environmental stress and hyperthermia strongly influence the number of heartbeats per minute.

It is also known that the measurement of blood oxygen saturation is greatly disturbed by the ambient brightness and by the level of moisture in the skin. In general, the determination means capable of measuring the aforementioned data may be constituted by appropriate sensors associated with calculation means,

For example, to ensure that a user sits comfortably at the time of a blood pressure measurement, it is possible to use pressure sensors placed on the seat and on the backrest of the cabin chair. To ensure that the arm is properly seated, sensors can be positioned on the armrest of the cabin chair.

To measure the temperature, the sound level, the humidity level and the brightness level inside or outside the shell, a thermometer, a microphone, a hygrometer and a photocell can be used.

In a preferred embodiment, the health booth comprises means for controlling that the health measure is performed when a condition meets at least one predetermined criterion. This characteristic makes it possible to carry out the health measurements in optimal conditions.

For example, one may decide to measure blood pressure only when the patient has been sitting for at least five minutes. In one embodiment of the invention, these control means are optional, since it may be important, particularly following a natural disaster, to carry out health measures in large numbers, to take emergency measures, even when the measurement conditions are not optimal. In other embodiments, the control means may be systematically implemented.

In a preferred embodiment, the hull of the health booth according to the invention comprises at least one opening for connecting this health booth to at least one other health booth. A "hospital" is thus formed consisting of a plurality of health booths that communicate with one another.

This feature is particularly advantageous when it comes to guarantee certain predetermined conditions within several health booths installed in the same area. For example, in a particularly hot area, it is easier to lower the temperature in several health booths that communicate with each other than in the same number of individual health booths.

The health booth according to the invention comprises means for transmitting the data structure to a remote center. This feature advantageously facilitates the collection of the data structures found in a plurality of health booths or in a hospital within the meaning of the invention.

In a particular embodiment, the health booth according to the invention comprises energy supply means.

These energy supply means may for example operate based on solar energy, or open thermodynamic cycles / and / or closed. They provide power to the health booth and regulate the temperature inside the cabin. For more details on such power supply means, those skilled in the art will be able to refer to patent documents FR 2 462 584 and FR 2 588 645.

BRIEF DESCRIPTION OF THE DRAWINGS Other features and advantages of the present invention will emerge from the description given below, with reference to the attached drawings and appendix 1, which illustrate an example of embodiment devoid of any limiting character. In the figures:

- Figure 1 shows a health booth according to the invention in a particular embodiment;

FIG. 2 represents the connections of a computer used in the health booth of FIG. 1;

- Figure 3 shows several health booths according to the invention interconnected to form a hospital; and - Appendix 1 represents an example of a data structure generated by the health booth of Figure 1.

Detailed description of an embodiment

Figure 1 shows a health booth 10 according to the invention in a particular embodiment.

The health booth 10 mainly comprises a shell 20 and an armchair 30.

In another embodiment, the health booth 10 according to the invention may comprise several seats 30. The health booth 10 comprises several means for measuring data relating to the health of a user. In the embodiment described here, these measuring means consist of:

an inflatable cuff 31 for measuring the blood pressure at the level of a user's arm, this cuff furthermore comprising heart pulse sensors, not shown;

a scale 32 for measuring the weight of the user when he is seated on the chair 30;

a board 33 for measuring the user in a standing position; and

a saturometer 34 for measuring the saturometry of the user by blood oxygenation.

In the embodiment described here, the saturometer 34 is attached to the end of an armrest 35 of the chair 30.

According to the invention, the health booth 10 comprises a certain number of sensors to determine the conditions under which the taking of health measurements is carried out.

In the embodiment described here, these sensors are:

a sensor 41 making it possible to determine whether the door 25 of the cabin is open or closed;

a pressure sensor 42 placed on the seat of the chair 30 making it possible to detect whether the user is seated or not on the seat;

a pressure sensor 43 placed in the back of the chair 30, which makes it possible to determine whether the user is leaning against the chair 30;

two sensors 44 placed on a bar of feet integral with the chair 30 and which make it possible to detect whether the user actually has both of his feet resting on this bar;

two sensors 45 placed under the board 33 to determine whether the user is correctly placed when measuring his height with the board 33 or when he takes his tension while standing with the inflatable cuff 31; a thermometer 46 for measuring the temperature outside the shell 20;

a thermometer 47 for measuring the temperature inside the shell 20;

a hygrometer 48 for measuring the humidity level outside the shell 20; a hygrometer 53 for measuring the humidity level inside the shell 20;

a microphone 50 for measuring the noise level inside the cabin 10; and a photoelectric cell 54 for measuring the level of brightness outside the shell 20.

In the embodiment described here, the health booth 10 comprises a lamp 55 for diffusing, inside the booth 10, a light of predetermined intensity, so that the brightness of the shell 20 is optimal for perform health measurements when the door 25 is closed.

According to the invention, when a health measure is taken, the conditions under which this measurement has been taken are recorded in a data structure in association with the results of this measurement.

In the example described here, this data structure is a computer file.

The health booth 10 comprises a computer 60 to which each of the aforementioned sensors and measuring devices are connected, as shown in FIG. 2.

This computer 60 is adapted to generate a file as shown in Appendix 1 and to send this file to a remote center 100 via a telecommunications network R.

In the example described here, this computer 100 is installed in the thickness of the shell 20.

In the particular embodiment described here, the computer 60 and all the electrical equipment of the health booth 10 are supplied with energy by a motor 70 placed in the thickness of the shell 20, itself connected to a solar panel. 71. In known manner, the solar panel 71 heats a fluid injected into the engine 70 through a pipe 72, the engine using this heat energy to generate the electrical power necessary for the operation of the electrical instruments of the cabin 10, and to produce electricity. cold by compression of another fluid. The engine 70 is therefore particularly adapted to regulate the temperature inside the cabin 20, by injecting hot or medium air from a grid 72.

The health booth 10 described herein also includes an air vent 29 and a touch pad 80 for interacting with the user.

We will now describe a scenario of use of the health booth 10 to establish the health check of a user, this balance being represented in the form of a file in Appendix 1. We assume that the user enters the cabin health

10 through the door 25, leaving the door open behind it, which is detected by the sensor 41.

On the touch screen 80, a message is broadcast proposing to seize his age. As long as this data is not entered, the health measures can not begin in this embodiment. The age is then recorded in the file in Appendix 1.

Once the age of the user entered, a message is displayed on the touch screen, prompting the user to measure its size with the board 33.

As long as the user does not position his feet correctly on the markers at the sensors 45, an invitation message asks him to reposition himself.

The size is then recorded in the file of Appendix 1. Once the size is measured, the user is encouraged to remain standing on the above-mentioned benchmarks and to perform a blood pressure measurement while standing. Sensors placed in the tension cuff 31 can detect that the cuff is correctly positioned.

When such detection takes place, the computer 60 triggers a counter and takes two blood pressure measurements, respectively after one minute and after five minutes, the results of these measurements, respectively 11.8 and 11.6, being memorized. the file in Annex 1.

The user is then invited to take a position on the chair 30. For weight measurement, it is ensured that the user is actually seated (sensor 42 active) and that both of his feet are positioned on the foot bar (position of the feet detected by the sensors 44).

As soon as this is the case, the weight is measured by the balance 32 and recorded in the file of Annex 1 (81 kg). A message from the touchpad 80 then prompts the user to reposition the tension cuff 31 to measure his sitting blood pressure.

In the embodiment described here, for the measurement of blood pressure to be optimized, it is desired that the user is in a sitting position (detected by the sensor 42) backed to the chair 30 (detected by the sensor 43) and the arm placed on the armrest 35 (detected by two position sensors 83).

As soon as this position is recorded by the computer 60, it asks the user to wait 5 minutes. It turns out, in this example, that, unfortunately, when the time of 5 minutes expires, the user has withdrawn his arm from the armrest 35.

The measured blood pressure 12.7 is recorded in the data structure, with information representative of the fact that the user was sitting, leaning but his arm was not positioned on the armrest.

When measuring the heartbeats of the user using the voltage cuff 31, the microphone detects a very high level of noise, namely a noise level of 120 dB due to a jackhammer. It is known that the noise level strongly influences the number of heartbeats per minute.

As a result, the touch pad 80 prompts the user to close the door 25, which is automatically detected by the sensor 4L

A noise level of 50 dB is then recorded inside the health cabin 10.

When the door 25 is closed, the light diffused by the lamp 55 is at the optimal level of 120 cd.

It will be assumed that at the time of taking the measurement, the temperature inside the cabin is 19 ^° C. The touch pad 80 invites the user to wait 1 minute and heartbeats of 60 ppm are then recorded in the file of Appendix 1.

Finally, a message invites the user to measure his saturometry by placing his index in saturometer 34 positioned at the end of the armrest 35.

The brightness (120 cd) and hygrometry (4%) measurements are recorded in association with the result of this SpO ₂ : 95% saturometry measurement. The file is then automatically sent by the computer

60 to a remote center 100 via a telecommunications network R.

In the embodiment described here, the health booth 10 comprises two removable doors 90 located vis-a-vis. As shown in Figure 3, these doors allow for a hospital by positioning two health cabins side-by-side and removing the removable panels 90 so as to create a lock chamber between the two cabins.

In a preferred embodiment, the health booths 10 are interconnected by a seal 92 in this particular arrangement.

ANNEX 1

Blood pressure :

Weight:

Heart pulsations

oximetry

Claims

A health booth (10) comprising a shell (20), at least one chair (30) and at least one measuring means (31, 32, 33, 34) of a health data of a user characterized in that said cabin comprises:

means (41-50) for determining, at the time of taking a measurement, at least one condition of said taking of measurement; and means for recording, in a data structure, the result of said measurement in association with said condition.

2. Health booth according to claim 1, characterized in that said determination means are able to measure at least one of:

a position of said user;

the temperature inside and / or outside of said shell;

a sound level inside and / or outside said shell;

a humidity level inside and / or outside said shell; and a brightness level inside and / or outside said shell.

3. Health booth according to claim 1 or 2, characterized in that it comprises means (60) for checking that said measurement is performed when said condition meets at least one predetermined criterion.

4. Health booth according to any one of claims 1 to 3, characterized in that said shell (20) has at least one opening (90) for connecting said health booth to at least one other health booth.

5. Health booth according to any one of claims 1 to 4, characterized in that it comprises means (60) for transmitting said data structure to a remote center (100).

6. Health booth according to any one of claims 1 to 5, characterized in that it comprises means (70) for supplying energy.