NL1015970C2 - Method, device and pressure sensor cushion for detecting an incorrect sitting position. - Google Patents

Description

Method, device and pressure sensor cushion for detecting an incorrect sitting position.

The invention relates to a method for detecting a wrong posture of a person when working at a workplace.

Incorrect posture is also understood to mean the good posture that is held for a long time or that is too long. In addition to the sitting workplace, more and more the standing workplace (including computers) is being used.

From WO 94/10877 an ergonomic chair is known which is provided with pressure sensors which are connected to an analysis device that can control an alarm buzzer when the measured pressure or pressure ratios of different sensors are outside predetermined limits. A wrong posture during work causes too much tension in certain muscle groups, usually the muscles that have to work against gravity. Examples of this are the neck muscles.

15 The best sitting position when working is generally a personal position, in which the person sits relaxed and where the forces on the structures are acceptable. In order to detect a wrong sitting position, according to WO 94/10877 the pressure between the back and the backrest and the pressure of the person on the seat of the chair is measured, the ratio being a measure of the wrong sitting position. In practice, the pressure between the person's back and the backrest does not appear to be an unambiguous measure of a correct or incorrect posture of the seated person.

The invention has for its object to provide a method of the type mentioned in the preamble, wherein a reliable measure of an incorrect sitting posture is obtained in a simple manner.

This object is achieved according to the invention in that the pressure between at least a part of an arm of the person and a support therefor is measured and when the measured pressure is outside a predetermined area, a signal is given.

The inventor has surprisingly found that it is already sufficient to measure only the pressure between a part of the sitting person's arm, for example the forearm or elbow on a worktop or armrest, in order to obtain a reliable detection of an incorrect sitting posture .

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The invention furthermore relates to a device for detecting a wrong posture of a person when working at a workplace, which device is characterized by a pressure sensor cushion which is arranged for placement between at least a part of an arm of the person and a support therefor and a processing device connected thereto, which, when the measured pressure is outside a predetermined pressure range, issues a signal.

The invention also relates to a pressure sensor cushion for use in the above-mentioned method or device. Preferred exemplary embodiments of the method, device and pressure sensor pad are described in subclaims.

The invention will be explained in more detail below with reference to the drawings.

Show in the drawings:

Figure 1 is a side view of a schematically drawn person in sitting position with a pressure sensor cushion according to the invention between the elbow and the work surface;

Figure. 2 a top view of said person; Figure 3 is a side view of a person in sitting position with a pressure sensor cushion between forearm (plus elbow) and an armrest;

Figure 4 is a block diagram of a processing device according to the invention for processing the pressures measured by means of a pressure sensor pad according to the invention; Figure 5 shows a section through a pressure sensor cushion according to an embodiment of the invention and;

Figure 6 shows another embodiment of the pressure sensor cushion according to the invention.

25 Despite the fact that RSI (Repetative Strain Injury) is one of the oldest syndromes, traditionally the fright of writers' cramps among the monks, they are even increasingly trying to come up with solutions to solve the RSI problem themselves. An Achilles tendon inflammation or tennis arm caused by the wrong strike technique is actually also an RSI injury. The mouse computer arm arises in any case if people sit behind the computer for too long in a too stressful position.

A number of synonyms for RSI include Work Related Diseases, overload injuries.

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A wrong posture causes too high tensions in certain muscle groups, usually the muscles that have to work against gravity. Examples of this are the neck muscles and wrist pullers but not the only one. The work behind the computer in sitting position or standing position or other position ensures that there is not enough movement, so that various muscles have to perform a lot of static work. Because the need for blood is high but the circulation is poor, there is in particular no pumping effect, circulation problems in the muscles occur after two minutes.

In addition to this static muscle overload, there are also muscle groups that are not used. Then the principle of "use them or loose them" applies. On the one hand, the loaded muscles will become stronger and short, while on the other the non-loaded muscle groups will become weaker. Nerves can come under pressure around or in the hardened muscles, which also irritates this structure. By continuously applying the same load on a joint at a certain angle, it is possible that capsular band structures are overloaded or underloaded. The joint as a whole is subjected to the wrong load, which can also cause irritation processes here. In addition, both underload and overload give an increased chance of cartilage degeneration.

It can be concluded that all structures, such as a muscle, the joint, the capsule, etc., can cause problems with a static posture. To ensure that this does not occur, changing the posture in combination with the correct posture is of course the best solution.

The best posture is a personal posture where the seated person is relaxed and where the forces on structures such as ligaments, tendons, bones, joints, nerves, skin and muscles are acceptable.

With a screen worker, there is clearly a difference between the blind type / star 25 and non-blind type / star. The blind type / star can support the elbows close to the body. The upper arm, as it were, falls directly next to the trunk. With the non-blind type / star, the desktop needs to be raised, which reduces the angle between the eyes and the keyboard. The keyboard is also moved further away. As a result, it is possible to look directly from the keyboard to the screen.

The angle that the upper arm makes with the trunk should not be more than 30 ° in the lateral direction and not more than 60 ° in the forward direction. The horizontal distance from the navel to the middle hand must not exceed 45 cm. Within these angles n '£: ·.

j il (j l'i '4 and distances, a relaxed position must be found for the neck, arm, back muscles and other muscles.

The head should not be bent and / or turned more than 15 to 20 °. The wrists are supported on a wrist bar or on the desk at elbow height. The 5 wrists are therefore in line with the forearms. The angle of the elbows is 90 to 120 °. The mammary vertebral column does not need to be supported. The lower back should be kept in a hollow position by means of preferably a lumbar support. The hips and knees are at an angle of 90 °. The feet are fully supported.

Once the optimum posture described above is known, it appears that people have a very bad posture and are even less capable of maintaining this posture while working, especially if it has to take place in a concentrated manner. It also appears that people only pay attention to posture when pain occurs as a result of poor posture. People find it annoying when they are not in control of the work.

There is often a high workload, which means that little time is spent on factors that have nothing to do with work, such as posture and movement.

It has been found in practice that one should not have too many illusions, that an attitude can easily be changed by means of instruction and a good ergonomic workplace.

Through many years of practical experience, through trial and error, the inventor has devised a method for detecting a wrong sitting posture of a person while sitting down on a work surface in order to support the person in improving and "acquiring" the best personal posture / least offensive posture. The pressure between at least part of an arm (forearm and / or elbow) of the person and a support (work surface or armrest) is measured. When the measured pressure is outside a predetermined pressure range, a signal is output.

The inventor has surprisingly found that the pressure need only be measured at one location, in particular between a part of an arm of the person and a support therefor. Of course, the pressure between a part of the other arm of the person and a support therefor can be measured in parallel. This proved to be sufficient despite the complex processes and various factors that, as indicated above, apply to a good sitting posture.

Because, as already stated above, a good sitting posture is highly personal, it is recommended that the person be given the opportunity to perform a calibration before he or she starts working. Hereby the sitting person adopts a correct sitting position and in this sitting position the pressure between a part of the person's forearm and a support therefor is measured. At this measured pressure, an upper value is added and a lower value is subtracted therefrom to obtain the respective upper pressure limit and lower pressure limit of the pressure range and to store in which pressure range the measured pressure must lie with a later correct working position.

It is noted that the foregoing naturally also applies to other postures, such as, for example, a standing or lying position.

The measured pressures are preferably converted to digital form, so that the pressure values can easily be processed in a personal computer.

The invention is not only suitable for a computer worker, but is also extremely suitable for a person who works behind a sewing machine, a telephone operator, laboratory staff or persons who assemble electronic equipment or read a book as soon as there is a risk. on overload.

In the figures 1 and 2 a sitting person 1 is schematically shown. This person works behind a screen 2. The person sits on a chair 3 and a work surface 4. On the work surface 4 lies the keyboard 5. The arm 6 of the person 1 rests on the work surface 4. Between the elbow and the work surface 4 a pressure sensor cushion 7 is provided, which measures the pressure between elbow and / or a part of the forearm and the work surface 4. Figure 2 shows a round pressure sensor cushion, but various shapes are possible. Figure 3 shows the same sitting person 1, with the pressure sensor cushion 7 arranged between elbow and a part of the forearm on the one hand and the armrest 8 of the chair 3. The objects further shown in Figure 3 have the same reference numbers as the corresponding objects in Figures 1 and 2.

The invention also relates to a device for detecting a wrong sitting posture of a person when working while sitting on a work surface. This device comprises a pressure sensor cushion as mentioned above and which is arranged for placement between at least a part of the person's arm and a support therefor.

The device further comprises a processing device to which the pressure sensor pad or pads are connected. When the pressure measured by means of the pressure sensor pads is outside a predetermined pressure range, the processing device issues a signal. For this purpose, the processing device as shown in Fig. 4 may comprise a memory 9, in which a pressure upper limit and a pressure lower limit of a pressure area are stored, within which the measured pressure must lie in order not to produce a signal of erroneous sitting. Furthermore, the detection device 10 according to an embodiment of the invention comprises an evaluation device 10, wherein the pressure upper limit and lower pressure limit are applied to the inputs a, b thereof from the memory 9. The pressure sensor cushion can be connected to input c. A warning signal is issued at the output d of the evaluation device when the pressure measured by means of the pressure sensor pad 15 is outside the above-mentioned pressure range.

The detection device according to an embodiment of the invention is provided with an adder device 11. The signal from the pressure sensor pad is applied to the input c of the evaluation device 10, and also supplied to the input e of the adder device 11 and a corresponding input h of the subtraction device 12. A predetermined upper value is applied to the input f of the adder device 11, while a predetermined lower value is applied to the input i of the subtraction device 12. At the outputs g and k of the adder 11 and subtractor 12 respectively, the pressure upper limit or pressure lower limit are applied and supplied to the memory 9 and stored therein for use by the evaluation device 10.

The analog signal which outputs the pressure sensor pad (s) will preferably have to be digitally converted by means of an analog-to-digital converter between pressure sensor pad and processing device. As a result, interaction with a computer can take place in a simple manner. The method according to the invention and the device according to the invention can be implemented in a personal computer by means of software. In an easy way, an acoustic and / or visual warning signal can be selected via the computer. This signal can be dressed with 1 0 1 5 9 7 η 7 * ft with exercises that appear on the screen or information to be entered according to your own wishes.

When the person adopts an incorrect posture for too long a time and therefore gives the wrong pressure on the pressure sensor pad (s), a signal is automatically emitted, so that the person is warned to change his posture. Parameters that can be set are, for example, duration of work behind the screen, duration of good sitting, duration of wrong sitting, etc. These time measurements are performed by a time device (not shown).

The invention further relates to a pressure sensor cushion suitable for the methods and devices described above. For disc-shaped pressure sensor pads, the diameter is preferably between 5 and 20 cm, while for square or rectangular sensor pads the length is preferably between 5 and 20 cm and the width is preferably between 5 and 20 cm. The thickness of the pressure sensor pad is preferably less than 2 mm. However, when a thickness greater than 2 mm is applied, a recess for receiving arm part is provided on the top of the cushion, between which arm part and the support thereof the pressure must be measured, see figure 6.

To prevent the pressure sensor cushion from sliding, the underside of the cushion is provided with a non-slip layer or with a Velcro strip, as is schematically indicated in Figs. 5 and 6 with the layer 14 of the pressure sensor cushion. Furthermore, the cushion can also be provided with arm part fixing means (not shown).

The pressure sensor pad (s) can be connected to the processing device via wires.

In order to experience as little inconvenience as possible from the connection between the pressure sensor pad and the processing device, the pressure sensor pad is provided with a transmitter for wireless transmission of the measured pressure values, which pressure values are received by a receiver in the processing device, for example in or at the personal computer .

By means of the method, the device and the pressure sensor pad according to the invention, a person can be corrected in an easy and friendly manner, while the pressure sensor pads are not seen as obstructive. The working person will therefore soon be inclined to constantly correct his posture. Because the most important reason for the creation of the current RSI-U 15, - 8% image, namely sitting in front of the computer for too long, can be prevented with this, this simple "posture reminder" is very complaints and cost-saving.

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Claims (22)

A method for detecting a wrong posture of a person when working at a workplace, characterized in that the pressure between at least a part of an arm of the person and a support therefor is measured and when the measured pressure is outside of a predetermined pressure range, a signal is being delivered. 10. Method according to claim 1, characterized in that for calibration an upper and lower value is added or subtracted respectively from the pressure measured when the correct posture is taken to obtain and store an upper pressure or lower pressure limit of the pressure range. 15 Method according to claim 1 or 2, characterized in that the measured pressures are converted into digital form. 4. Device for detecting a wrong posture of a person when working at a workplace according to the method of claim 1, 2 or 3, characterized by a pressure sensor cushion, which is arranged for placement between at least a part of an arm of the person and a support therefor and a processing device connected thereto, which, when the measured pressure is outside a predetermined pressure range, issues a signal. 25 Device as claimed in claim 4, characterized in that the processing device is provided with a memory for storing the pressure upper limit and lower pressure limit of the pressure area, an evaluation device on which the stored upper pressure limit and lower pressure limit and the measured pressure during operation of the 30 people are supplied and at the output of which a signal is output when the pressure measured during operation is greater than the upper limit or smaller than the lower limit. I0 1 5 97 o \ Device as claimed in claim 4 or 5, characterized in that a calibration device is present. 7. Device as claimed in claim 6, characterized in that the calibration device is provided with an adder device, wherein an upper value is supplied to one input and to the other input a pressure measured in the correct posture of the person and wherein to the output the pressure upper limit can be taken off for supply to the memory, and a subtractor, wherein a lower value is applied to one input and a pressure measured at the correct posture of the person to the other input and wherein the pressure lower limit can be taken off at the output for memory supply. Device according to one of claims 4 to 7, characterized in that the pressure sensor pad is connected to an analog-to-digital converter. 15 Device as claimed in any of the claims 4-8, characterized in that a timer is provided for measuring time parameters during the pressure measurement, wherein a signal is issued when a time threshold is exceeded. Method according to one of claims 1 to 3, characterized in that it is implemented in a personal computer by means of software 11. Device as claimed in any of the claims 4-9, characterized in that it is implemented in a personal computer by means of software 12. Pressure sensor cushion for detecting an incorrect sitting posture of a person when sitting down on a worktop according to the method according to one of claims 1-3, 10 or suitable for the device according to one of claims 4-9, 11. 30 Pressure sensor cushion according to claim 12, characterized in that the length is 5-20 cm. t x 1 3 V / 0% Pressure sensor cushion according to claim 12 or 13, characterized in that the width is 5 - 20 cm. 15. Pressure sensor cushion according to claim 12, characterized in that it is disc-shaped with a diameter between 5 and 20 cm. Pressure sensor cushion according to claim 12, 13, 14 or 15, characterized in that the thickness is less than 2 mm. 17. Pressure sensor cushion according to claim 12, 13, 14 or 15, characterized in that the upper side of the cushion has a recess for partially receiving the arm part. 18. Pressure sensor cushion as claimed in any of the claims 12-17, characterized in that the underside of the cushion is provided with an anti-slip layer. Pressure sensor cushion according to one of claims 12 to 17, characterized in that the underside of the cushion is provided with Velcro. Pressure sensor cushion according to one of claims 12 to 17, characterized in that the cushion is provided with arm part-fixing means. Pressure sensor can according to one of claims 12-20, characterized in that the cushion is provided with wires for transferring the measured pressure values. 25 Pressure sensor cushion according to one of claims 12-20, characterized in that the cushion is provided with a transmitter for wireless transmission of the measured pressure values. f '. "