DE102011122572A1 - Control device for controlling human body posture fault, has signal transmitter to transmit specific signal, when human body surface curvature aspect ratio measured by measuring portion is different from predetermined value - Google Patents

Abstract

The device (1) has a measuring portion (3) for measuring the curvature aspect ratio of human body surface. The measuring portion is detachably attached on the body surface of user (2) through adhesive strips. The measuring portion is connected with a signal transmitter. The optical or acoustic perceptible signal is transmitted to the user as body posture fault signal, when the curvature aspect ratio of human body surface is different from predetermined value.

Description

The invention relates to a control device for controlling body malpositions.

Most back problems are caused by postural mistakes. While in the area of the cervical and lumbar spine the increased curvatures towards the front, for example, lordosis in the form of hollow neck or hollow back, it is in the thoracic spine area, the curvature to the rear, such as kyphosis or as a round back. These incorrect postures lead to a non-physiological burden with corresponding pain reactions of the organism. A significant reduction in pain or absence of pain is usually only possible if the individual manages to stand up permanently. Due to a lack of control, however, the attitude change is usually kept only very briefly.

It is therefore an object to provide an aid that makes it easier for the person concerned to realize a malpractice early, correct at short notice and avoid as long as possible.

The achievement of this object is the features of the valid claim 1.

The present invention is based on the recognition that in the area of the lordosis the radius of curvature is the smaller, the stronger the concavity, i. H. the malposition, is formed. If, for example, a distance of 10 cm in the area of the lumbar spine on the skin is measured, in accordance with Schober's sign, in maximum hyperextension, this area increases as soon as the test person straightens up and increases the radius of curvature to approximately 12 cm. Conversely, a stretch measured in curvature on the skin in the area of the thoracic spine diminishes as soon as the test person straightens up. Thus, the intensity of a body malposition can be estimated by the extent of the compressions or extensions of the body surface.

The present invention therefore relates to a control apparatus for checking body malpositions with at least one measuring device which can be placed on the body surface of the user. This measuring device is designed to measure, in particular, curvature-related strains and / or compressions of the body surface. If necessary, the measurement value determined by the measuring device effects feedback to the user via a control or evaluation unit of the control device, in that the signal transmitter in signal communication with the measuring device signals to the user a stretching and / or compression of the body surface deviating from a desired value as body malformation. The control device according to the invention is able, with the aid of its measuring device, to measure an extension or the curvature itself on the skin of the user, and then to signal it to a body malposition via at least one signal transmitter in signal connection with the measuring device.

An advantageous embodiment according to the invention, which optionally also allows a flexible arrangement of the measuring device, provides that a measuring device by means of at least one belt or belt on the body surface of the user can be applied.

A development according to the invention of its own worth-worth protection provides that the measuring device is designed as a strain and / or curvature measuring strip. Such strain and / or curvature measurement strips, also called strain gages, are already known in the art for detecting expanding deformations. Such strain and / or curvature measuring change their electrical resistance even at low deformations and are used as strain or curvature sensors. These strain and / or curvature measuring strips can be superficially fixed with an adhesive surface or at least one adhesive pad, where they deform minimally under load. This deformation then leads to a change in the resistance of the strain and / or curvature measurement strip. These strain and / or curvature measuring strips are now transferred from the hitherto known application of the art to the present medical or therapeutic application. In this case, all suitable strain or curvature measuring strips, such as wire, foil, semiconductor or Rosettendehnungsmessstreifen be used.

Another self-worthy development according to the invention additionally or instead provides that a measuring device has at least two measuring electrodes spaced apart from one another, which detect the change in the electrical skin resistance caused by a curvature or erection of the user. In this further embodiment, the electrical skin resistance of the user is used as possibly also further parameters for the expression of the curvature of the spine. It has been found that the skin resistance is proportional to the curvature or erection of the user and that there is a correlation to the distance between the at least two measuring electrodes. In the area of the thoracic spine leads a Erection and thus a shortening of the distance between the measuring electrodes to a reduction and in the area of the lumbar spine to an increase of the skin resistance. On the other hand, a round-back or hollow-joint defect in the region of the thoracic spine leads to an enlargement and in the area of the lumbar spine to a reduction of the skin resistance.

In order to be able to signal to the user a well-perceived body malaise, a preferred embodiment according to the invention provides that a signal generator emits optically or acoustically perceptible signals from the user.

In addition or above all in order to limit the perception of the signal to the user alone, it is provided according to a development of the invention that a signal generator emits perceptible signals on the skin surface of the user. In this case, the signal generator as transcutaneous electrical nerve stimulation or der-like electrical impulses and / or emit perceptible signals as vibrations. The signals emitted by such a signal generator can be output as electrical impulses, as are common, for example, in the so-called TENS devices (transcutaneous electrical nerve stimulation). In another embodiment, in which the signal transmitter emits perceptible signals as vibrations, the signal transmitter can have a vibration device which, for example, corresponds to the vibration battery in a mobile telephone device.

In order to allow the user to adequately respond to signaled body malaise, it is advantageous if a signal generator outputs proportional signals in terms of signal strength or intensity to the extent of body malaise. In such an embodiment, a graduation can be made such that strong bad postures cause correspondingly strong feedback from the at least one signal generator.

It is particularly advantageous if the at least one measuring device is electrically connected to the at least one signal generator via a control or evaluation unit, and if the control or evaluation unit can be preset with a preferably individually variable setpoint value. In this embodiment can be defined in the electronics of the control or evaluation of the measuring range, for example, the starting point in the incorrect attitude to the desired erection.

In order to make it easier for the user to estimate the current body malposition, it is advantageous if at least one measuring device of the control device has at least two measuring areas which are separate or spaced apart, and if each measuring area of the at least one measuring device is assigned a signal generator. If each measuring range of the measuring device in each case assigned a signal generator, the user can estimate on the basis of the signaling signal generator, whether the acute body deformity now rather in the area of the cervical or lumbar spine or instead rather in the thoracic spine area requires corrections.

In this case, it may be advantageous if the signal transmitter associated with the measuring device or the measuring region for the lumbar spine is arranged in the region of the abdomen of the user.

Further developments according to the invention will become apparent from the claims in conjunction with the description. The invention will be described in more detail with reference to a schematically illustrated embodiment.

It shows:

1 to 4 a control device for the control of body malpositions with at least one, can be applied to the body surface of the user measuring device, which is designed to measure in particular curvature-related strains and / or compressions of the body surface, wherein the 1 to 4 show the measuring device in different postures of the user.

In the 1 to 4 is a control device 1 shown to control a person's malformations 2 serves. The control device 1 has several measuring devices 3 . 4 which is used to measure curvature-related upsets and extensions of the user's body surface 2 are formed. These measuring devices 3 . 4 , which are each formed as a strip-shaped strain or curvature measuring strip, are spaced from each other on the body surface of the user 2 placed.

While in the 1 to 4 illustrated lower measuring device 3 associated with the lumbar spine, is the one in the 1 to 4 shown upper measuring device 4 intended for the detection of body malpositions in the area of the thoracic spine. The strip-shaped strain gauges 3 . 4 are attached to the body surface of the user's back in the area of the spine and with their strip longitudinal direction in the longitudinal direction of the user's spine 2 oriented.

The measuring equipment 3 . 4 stand with at least one - not shown here - signal generator in signal connection. To the user 2 To facilitate the estimation of the acute bodily deformity and to enable the user a specific correction of his posture, is every measuring device 3 . 4 each assigned a signal generator. In order for the user to adequately respond to the individual extent of body malaise, it is advantageous if the signal strength or intensity of the measuring devices 3 . 4 associated signal generator is proportional to the extent of body malaise in this body area.

At the same time, at least one of the signal transmitters can emit visually or acoustically perceptible signals from the user. However, the perception of the signals to the user 2 It is advantageous if the signal transmitters emit perceptible signals on the skin surface of the user. These can be the measuring equipment 3 . 4 assigned signal generator as electrical impulses or as vibrations perceptible signals.

Claims (12)

Control device ( 1 ) for controlling body malpositions with at least one person on the body surface ( 2 ) applicable measuring device ( 3 . 4 ), which is designed to measure, in particular, curvature-related elongations and / or compressions of the body surface, and which is in signal connection with at least one signal generator, which the user ( 2 ) signals a deviating from a desired value stretching and / or compression of the body surface as body malpractice. Control device according to claim 1, characterized in that a measuring device ( 3 . 4 ) by means of at least one belt or belt on the body surface of the user ( 2 ) can be applied. Control device according to claim 1, characterized in that a measuring device ( 3 . 4 ) by means of at least one adhesive strip or at least one adhesive surface on the body surface of the user ( 2 ) is releasably applied. Control device according to one of claims 1 to 3, characterized in that a measuring device ( 3 . 4 ) is designed as a strain and / or curvature measuring strip. Control device according to one of claims 1 to 4, characterized in that a measuring device has at least two spaced-apart measuring electrodes which detect the caused by a curvature or erection of the user change of electrical skin resistance. Control device according to one of claims 1 to 4, characterized in that a signal generator by the user ( 2 ) emits optically or acoustically perceptible signals. Control device according to one of claims 1 to 5, characterized in that a signal generator on the skin surface of the user ( 2 ) emits perceptible signals. Control device according to claim 6, characterized in that the signal generator as transcutaneous electrical nerve stimulation or the like emits electrical impulses and / or perceptible as vibrations signals. Control device according to one of claims 1 to 7, characterized in that a signal generator emits in the signal strength or intensity proportional to the extent of body malaise signals. Control device according to one of claims 1 to 8, characterized in that the at least one measuring device ( 3 . 4 ) is connected to the at least one signal generator via a control or evaluation unit, and that the control or evaluation unit, a preferably individually variable setpoint is predetermined. Control device according to one of claims 1 to 9, characterized in that at least one measuring device ( 3 . 4 ) of the control device has at least two separate or spaced measuring ranges, and that each measuring range of the at least one measuring device ( 3 . 4 ) A signal generator is assigned. Control device according to one of claims 1 to 10, characterized in that the measuring device ( 3 . 4 ) or the lumbar spine measuring area in the area of the abdomen of the user ( 2 ) is arranged.

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