NL1030950C2 - Movement device is for fixture between visual display unit and fixed ambiance for prevention of repetitive strain injury - Google Patents

Abstract

The movement device is for fixture between a visual display unit and the fixed ambiance for prevention of repetitive strain injury. By the use of the movement derived from the picture forming by the eyes in the neck-shoulder zone, promoting mainly rotating movements in the sagital surface. The aim of the invention is to induce more movement from the head, neck and shoulder zones, which can lead to increased blood circulation and sinew formation in the arm. The movement device comprises two independent plates (1,2), in the first of which an electric motor (3) is placed, which drives an eccentric mechanism (4). The plates are mutually connected by a central bearing block (5) and a central shaft (6) and the eccentric mechanism is placed in a recess (7) in the second plate (2).

Description

A movement device for mounting between screen and fixed world to prevent Repetitive Strain Injury

Background of the Invention 5 RSI stands for Repetitive Strain Injury, overloaded by repetitive movement. It is a collective name for complaints about the neck, upper back, shoulder, upper and lower arm, elbow, wrist and hand or a combination of these (nowadays the term CANS “Complaints of Arm, Neck and Shoulder” is used). RSI could possibly arise from the same movements and / or lack of variation. According to the CBS, 23 percent of employees in the Netherlands regularly have to deal with this. Screen work is seen as a possible source of RSI complaints. Continuous finger-hand movements lead to muscle overload. Monotonous work, sitting for a long time in one, possibly wrong posture, and the repetitive movements are the 15 biggest culprits.

The facts at a glance: Employees sit in front of a screen for too long. More than half of the employees sit in front of a screen 7 hours a day, a large violation of the guideline of the Arbo-decision, which advises a maximum of 5 to 6 hours. Forty percent of the screen workers have a wrong working posture due to ergonomic shortcomings, insufficient variation in work and an excessive workload.

The invention describes a therapeutic-ergonomic solution for RSI by stimulating movement in the neck-shoulder area.

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State of the art

Static load in combination with long exposure to repetitive movement generally leads to an increase in tension in the musculoskeletal system.

5 According to the decision of the Dutch Health Council (2002), the so-called Repetitive Strain Injury, better known under the term RSI, is not a local problem in the forearm / wrist / hand, but finds its origin in the neck and shoulder zone. In the prior art, however, attempts are made to remedy these complaints by, for example, ergonomically shaped computer mice, by special support means for the wrist or forearm and by offering ergonomically shaped keyboards. It has been found that this is only partially effective.

The invention describes a therapeutic-ergonomic solution for RSI by tackling the lack of movement in the neck-shoulder area.

The invention responds directly to this by using a movement in the neck-shoulder zone forced by the vision (imaging through the eyes), and not like other curative and preventive RSI solutions by using active specific exercises, performed during micropauses. The invention has for its object to provoke more movement of the head, neck and shoulder girdle, which movement could lead to increased blood flow and nerve supply in the arm.

A first goal is to have the display worker's head make a continuous alternating lateral left movement (lateroflexion). The screen worker, by having to adjust his gaze direction to the visual information on the screen and / or the position of the screen, causes an alternating movement of the image to be followed by an alternating movement of his head, in order to obtain a clear image. preserve. These lateroflective movements of the head initiate a direct rotation in the cervico-thoracic spine, through an anatomical coupling mechanism in the Atlas-Draaier complex. Without wishing to be bound by any theory it appears that continuous or intermittent movement of the head can prevent static neck strain and this will have a positive effect on the metabolism in the intervertebral disci, the possible nerve compression, the 3 facet joints and / or on muscle tension in the neck and shoulder zone.

In a further elaboration, the degree of rash in lateroflexion of the head can vary from Γ to a maximum of 45 ° on both sides, with a small rash of 0 ° to 5 ° being preferred. The movement frequency is of great importance. Research 5 has shown that exercise is beneficial for a good metabolism in the intervertebral disci. However, the frequency of movement appeared to play a very important role in this. Low-frequency movements in particular ensure more optimal care due to the visco-elastic behavior of the disci. Therefore, a movement frequency of at most 5 cycles per minute is preferably chosen, with a preference for the lowest frequency of 1 to 2 cycles per minute.

In a second embodiment the invention is characterized in that means are provided for moving a screen or integrally moving images presented on a screen, without manipulation by a user, in for instance a reciprocal, intermittent, continuous or periodic movement, such that a movement of a user's head is generated during use,

It is not an object of the invention to tilt the screen as a setting of 90 °, as is known from the more advanced screens in order to adapt the image to, for example, a specific graphic layout or otherwise, or a one-off setting of the screen to a achieve the correct individual viewing angle.

One or more of the stated and / or other objects is achieved with a device, assembly, method or computer according to the invention.

The invention describes a solution for the RSI problem by placing drive means such as a motorized movement device between screen and fixed world (existing foot, wall bracket or monitor arm). The movement device causes an imposed rotational movement of the display about a sagittal axis, with the aim of keeping the head of the display worker in a lateroflecting movement. RSI is a problem that is mainly based on the static overload of the neck and shoulder girdle. By making use of the invention, the screen worker will move significantly more in the neck and in the cervicothoracic junction. As an alternative solution, an integral movement of an image on the screen can also be effected, in particular with software, whereby a comparable effect can be produced.

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Description of the Invention

To clarify the invention, embodiments thereof will be further described with reference to drawings. In the drawing: Fig. 1 shows the structure of the movement device, which is made up of two independent plates 1 and 2, in which plate an an electric motor (3) is placed, which drives an eccentric mechanism (4). The plates 1 and 2 are interconnected by a central bearing block (5) and a central axis (6), the eccentric mechanism being placed in a recess (7) in plate 2; Fig. 2: The way in which the movement device (8) is coupled to the screen (9) and fixed world (10); Fig. 3: A representation of the effect that the movement device has on the display, by the rotating movement of the display about a sagittal axis; Fig. 4: Shows a side view of a display (9) and display worker 20 (12) operating with a computer (13) carried on a support device (14) with a support (11) connected to the fixed world, in the embodiment shown embodied as a stand (15) or leg (16) that can be arranged on a table or desk (17) or the like. The carrying device (14) can of course also be designed differently, for example as a bracket for fixing to a wall (18) or clamping on a table 25 (19) or the like. Such carrying devices are sufficiently known from practice.

In the exemplary embodiment shown, the screen (9) is attached to the carrying device (14), as schematically shown in Fig. 2 and Fig. 5 by means of a movement device (8) placed between them, which is further shown in Figs.

1. The movement device (8) comprises a first plate (1) and a second plate (2) arranged approximately parallel thereto, mutually connected by a coupling (5) 5 in which an electric motor (3) with transmission (3) is received . In the exemplary embodiment shown, the transmission (3) is an eccentric transmission (4), such that when the motor (3) is driven, the first plate (1) will move relative to the second plate (2) in a reciprocal movement about an axis (6), here also to be called sagittal axis, which encloses an angle α with the two plates (1,2) and, in use, with the image surface (20) of the display (9). The angle α is about 90 degrees in the embodiment shown, but can also be simply selected differently, while moreover the transmission can be chosen such that the shaft (6) intersects the two plates (1,2) at a different position or even outside the two plates is located.

During use, the first plate (1) is attached to the support device (14), while the second plate (2) is attached to the rear of the screen (9), for example in a manner known per se. As a result, during driving by the motor during use, a reciprocal movement is imposed on the screen relative to the support device. By suitable positioning of the plates 15 (1,2) relative to the screen (9), the axis (6) can, for example, extend through a center of the screen or can cut the screen at a distance from that center. In a more extreme position, the axis, which can be realized both as a real axis and as a virtual axis, would even be outside the image plane of the screen. The image plane of the display should be understood as that part of the display on which images are displayed during use, generated by, for example, a computer, DVD or other such image-generating means.

The result of the movement is a pure rotation on the central axis (6) and is dependent on the location of the drive and eccentric transmission (21) on plate 1 or the degree of eccentricity of the eccentric (4). By varying the position of the motor relative to the central pivot point, the turnout angle can be adjusted by the display worker (12) if desired.

The movement (22) of the movement, up to a previously mentioned maximum angle of 45 °, with a preference for a lower angle of movement of 0 ° to 5 °, is realized by an adjustable eccentric movement. The frequency of the reciprocal movement can be controlled by control mechanisms or resistance adjustments to the motor.

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Claims (18)

Device for carrying a display, comprising a carrying device for carrying a display and a coupling device for mounting on a display, wherein movement means are arranged between the carrying device and the coupling device for imposing a movement on the coupling device relative to of the carrying device. 2. Device as claimed in claim 1, wherein the moving means are adapted to rotate the coupling device relative to the carrying device about a real or virtual axis of rotation. Device as claimed in claim 2, wherein the moving means are adapted to rotate the coupling means through an angle of no more than 90 degrees. 4. Device as claimed in any of the foregoing claims, wherein the moving means are adapted for translation of the coupling device relative to the carrying device. Device as claimed in any of the foregoing claims, wherein the movement means are adapted to impose a reciprocal movement on the coupling device relative to the carrying device. Device as claimed in claim 5, wherein the movement means are adapted for movement of the coupling device relative to the carrying device with a frequency of less than 10 cycles per minute, preferably a frequency between 0.5 and 6 cycles per minute and more in particular between 1 and 5 cycles per minute. 7. Device as claimed in any of the foregoing claims, wherein adjusting means are provided for adjusting at least an amplitude and / or a frequency of the movement of the coupling device relative to the carrying device. Device as claimed in any of the foregoing claims, wherein the moving means are adapted for at least periodically discontinuously moving the coupling device with respect to the carrying device. 9. Assembly of a device as claimed in any of the foregoing claims and a display attached to said coupling device, wherein the moving means are arranged for moving the display around an axis which intersects an image surface of the display and / or is approximately parallel to the image plane of the screen. 10. Assembly as claimed in claim 9, wherein the moving means are adapted for moving a display screen about a sagittate axis, with a deflection of 1 ° to a maximum of 45 °, wherein the axis is preferably located in or in the vicinity of the center point of the display, in a frequency of 1 to a maximum of 5 cycles per minute. 11. Assembly as claimed in claim 9, wherein the moving means are adapted for moving a screen about a sagittate axis, which axis intersects the screen at a distance from a center thereof. 12. Assembly as claimed in any of the claims 9-11, wherein the moving means comprise an eccentric drive. 13. Method of presenting images on a screen, wherein the screen is moved during the presentation of images, such that the head of the screen worker is continuously or intermittently brought into lateroflection movement to avoid static strain on the neck-shoulder area. 14. Method as claimed in claim 13, wherein the display is moved about a sagittal axis, such that for the head of the display worker is generated continuously or intermittently in lateroflection movement to avoid static strain on the neck-shoulder area. 15. Computer with screen, wherein an algorithm and / or software is provided in the computer with which an image presented on the screen is integrally moved during use, such that the image is rotated about an axis intersecting the image surface of the screen and / or translated such that a movement of the head of a display worker is generated, continuously or intermittently, preferably in lateroflection movement, to avoid static strain on the neck-shoulder area. 16. Computer as claimed in claim 15, wherein said algorithm and / or said software is adapted to impose a reciprocal movement around a center position on the integral image, with a frequency of less than 10 cycles per minute, preferably a frequency between 0.5 and 6 cycles per minute and more particularly between 1 and 5 cycles per minute. 17. Computer according to claim 15 or 16, wherein said algorithm and / or said software are arranged for integrally moving said image with an amplitude that is relatively small with respect to the dimensions of the image surface of the screen. A computer-readable carrier provided with software for obtaining a computer according to any one of claims 15-17. 10 15 20 25 30 1 030 950