DE202004017471U1 - Braille output unit or Braille row for a computer has a touch surface that is concave and slopes backwards so that tactile Braille reading can be carried out with a naturally positioned hand and finger - Google Patents

Abstract

Ergonomic Braille output unit comprises a Braille module with a touch or key surface (2) that has a 2 x 4 hole matrix in which a total of 8 touch or key pins are inserted. The key surface is concave and slopes backwards so that tactile Braille reading can be carried out with a natural unstrained attitude of the sensing finger (4) and the reading hand.

Description

The The invention relates to an ergonomic braille output according to the preamble of claim 1.

Also for the blind and the visually impaired is the use of computer systems in the work area such as also in the private sector for years for granted become. Blind people use for blind-friendly conversion of on-screen information so-called screen reader programs (screen reader). information are converted into speech using a speech output module and / or with the aid of a braille output, a so-called braille display, tactile represented.

The tactile information is in braille - the so-called Braille - illustrated. The Braille is composed of strung together Braille characters, which by a character-specific combination of punctiform increases in a 2 × 3 Matrix are shown. The dot spacing within the matrix is constant and smaller than the character spacing. The original Braille consists of a matrix of 2 × 3 Tastpunkte, the 2 high 6, so 64 different braille characters can represent. Now also special characters and capitalization to be able to represent is It is state of the art to equip Braille modules with 2 × 4 styli, the 2 high 8, so 256 different characters can represent. Consequently Is it possible, unique to all 256 characters of the extended ASCII character set Assign point combinations. This braille presentation with 8 stylus is also called computer braille, with the two additional Tactile pins in the bottom row of the 2 × 4 matrix as points 7 and 8 are designated.

at Each Braille module is the top surface as a tactile reading surface - called short touch surface - formed. In a 2 × 4 Hole matrix of the touch surface are tactile reading pens - short tactile pins - movably recessed, which two states can accept: a raised state of the stylus (set) and a lowered Condition (deleted).

At the deleted State closes the surface the touch surface with the top edge of the stylus just off, and is therefore no more to feel.

Piezoelectric Braille modules are known. ( US 4283178 . EP 0237090 A1 . US 4664632 . DE 39 23 967 A1 ). These piezoelectric Braille modules have in common that is set or deleted by direct mechanical coupling of the stylus with the free end of a piezoceramic bending element of the stylus. These piezoceramic bending elements are firmly clamped on one side in the module body and arranged either parallel or perpendicular to the reading surface.

In Usually, 40 or 80 of these piezoelectric Braille modules lined up in a braille display. These provide the text information a section of the screen tactile.

The touch surface a Braille module is so far flat. What about tactile reading Computer Braille requires that the touchpad be scanned Finger, which is also known as a reading finger compared to 6 point Braille is much more common over the point mark to scroll up and down to all 8 points of the computer brain to recognize. This bigger movement of the reading finger slows the punctuation in comparison to the 6 point Braille.

Of the Invention is based on the object to make the touch surface so that the Up and down movement of the reading finger can be minimized, so a faster tactile To allow reading flow. Furthermore, to avoid spasms caused by the position the touch surface one possible relaxed attitude of the so-called reading hand, that is the hand with the reading finger, can be achieved.

A Another object of the invention is, per Braille module a button integrate as much as possible be operated in direct correspondence with the respective Braille module can. Furthermore should control buttons in as possible be arranged ergonomic position for braille output, because these are very common actuated be, e.g. to navigate in texts.

According to the invention touch surface concave shaped and inclined backwards, so that the reading surface of the natural Rounding the fingertip of the reading finger adapts. Thus everyone can 8 styli used to display computer braille simultaneously felt by the finger. The time-consuming up and down Downward movement of the reading finger is minimized, resulting in substantial acceleration contributes to the reading flow. Due to the inclination of the touch surface backwards it is achieved that the reading finger during tactile reading no longer, as in the previous flat arrangement of the touch surface, stretched out must become. Lesefinger and Lesehand can thus in a natural, slightly curved Posture, remain during the reading process. This will be a significant relief of the reading finger and the reading hand, as well as their wrist reaches.

To operate a key that is assigned to a single Braille module as intuitively as possible To be able to, according to the invention the Braille module equipped with an outlet surface to the rear, which has a wedge-shaped elevation for easy orientation. If you move the reading finger backwards to this wedge-shaped elevation, you can press the key to press the key underneath. By pressing this key, the cursor is usually placed on the text displayed on the Braille module.

Right and to the left of the Braille display, according to the invention, control buttons are arranged in such a way that that their printing surface the concave shape of the touch surface of Braille module follows. In the case that right and left of the Braille each two control buttons are located, these can according to the invention a common printing surface be coupled. This printing surface is then designed to be both one and the other Button, but also by the central pressing of the common pressure surface also press both buttons simultaneously can.

It demonstrate:

1 A Braille module with concave, backward tilted sensing surface in side view

2 A braille display with a reading hand

3 A braille module with discharge surface and button

4 Some Braille Modules arranged side by side with side pressure pad for control buttons

The in the in 1 Illustrated form of the ergonomic braille issue shows a Braille module ( 1 ) with the touch surface ( 2 ) and the styli ( 3 ), based on the touch surface ( 2 ) are movable, which is symbolized by a double arrow. In the set, thus elevated, state, the stylus pins protrude ( 3 ) from the touch surface ( 2 ) out. Thus, these can from the reading finger ( 4 ). Here is the touch surface ( 2 ) are concave and tilted backwards, away from the blind user. The concave shape of the tactile surface ( 2 ) is chosen so that it optimally the fingertip ( 5 ) of the reading finger ( 4 ) follows.

In 2 is a complete Braille display ( 6 ) with braille modules ( 1 ), wherein the concave and inclined backward expression of the touch surface ( 2 ) the reading finger ( 4 ) as well as the reading hand ( 7 ) in a relaxed, natural, slightly curved posture.

In 3 is a braille module ( 1 ) in cross section, wherein in extension of the touch surface ( 2 ) a discharge bridge ( 8th ) attaches seamlessly. In the middle of this outlet is a small wedge-shaped elevation ( 10 ), which allows the reading finger ( 4 ), the printing position ( 11 ) for the under the runway ( 8th ) button ( 12 ) on the outlet bridge ( 8th ). The outlet bridge ( 8th ) shows a narrowing ( 14 ), which is an elastic deformation of the outlet web ( 8th ) due to the pressure of the reading finger ( 4 ) to the printing position ( 11 ) to operate the button ( 12 ) facilitated.

In 4 are some Braille modules ( 1 ), at the edge of which a pressure surface ( 13 ) is shaped so that it conforms to the concave shape of the Braille modules. The pressure surface, under which two buttons are located in this form of expression of a rigid cover, which is embedded without additional fixation in the housing surface. Thus, it is possible by pressing the upper position ( 13a ) the upper button or by pressing the lower position ( 13c ) to trigger the lower button. By the central pressure on the common cover surface ( 13b ) Both buttons are pressed simultaneously.

Claims (5)

Ergonomic braille output, consisting of individual braille modules ( 1 ) whose tactile surface ( 2 ) has a 2 × 4 hole matrix, in which a total of 8 movable styli are embedded, characterized in that the tactile surface ( 2 ) of the braille module ( 1 ) is concave and tilted backwards, so the tactile point writing by a natural and relaxed attitude of the tactile finger ( 4 ) and the reading hand ( 7 ) to accelerate. Ergonomic braille output according to claim 1, characterized in that the tactile surface ( 2 ) to the rear with a discharge web ( 8th ), under which a button ( 12 ), which can be actuated by minimal movement of the reading finger. Ergonomic braille output according to claim 1 and 2, characterized in that the outlet web ( 8th ) in the middle a small wedge-shaped elevation ( 10 ), which allows the reading finger ( 4 ), the printing position ( 11 ) on the outlet bridge ( 8th ). Ergonomic braille output according to one of the preceding claims, characterized in that in addition to the touch surface ( 2 ) Braille modules ( 1 ) one or more buttons ( 12 ) are embedded so that the printing surface ( 13 ) of these buttons of the touch surface shape of the Braille modules ( 1 ) follows. Ergonomic braille output according to claim 4, characterized in that in the Ver use of two buttons ( 12 ) on the side of the Braille modules ( 1 ) whose pressure surfaces ( 13 ) are mechanically coupled to one another in such a way that by pressing the pressure surface ( 13b ) Both buttons are pressed simultaneously.