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KR-102964823-B1 - Braille input/output wearable module, Braille-based communication apparatus, and communication system for the hearing-impaired comprising the same

KR102964823B1KR 102964823 B1KR102964823 B1KR 102964823B1KR-102964823-B1

Abstract

The present invention relates to a finger Braille input/output wearable module, a finger Braille-based communication device, and a communication system for visually and hearing impaired persons including the same. A finger Braille input/output wearable module according to one embodiment of the present invention includes a wearable body provided as a glove structure; and a finger Braille input unit located at the end of an area corresponding to a finger shape in the wearable body, which enables the input of a message based on finger Braille.

Inventors

  • 김완수
  • 이동규
  • 지선혁
  • 김혜원
  • 이지화
  • 이다현

Assignees

  • 한양대학교 에리카산학협력단

Dates

Publication Date
20260513
Application Date
20220929

Claims (12)

  1. A wearable body provided with a glove structure; and It includes a finger Braille output unit coupled to the above-mentioned wearable body and outputting a message based on finger Braille, The above finger Braille output unit is, Stimulation member coupling portions individually disposed on the upper surface of each finger of the above-mentioned wearable body; A stimulation generating part capable of relative rotation with respect to the stimulation member coupling part and having a stimulation projection formed at its tip; and A driving member positioned on the back of the hand of the above-mentioned wearable body and moving a pressure rod located in the front area forward, wherein A finger Braille input/output wearable module in which the pressure rod presses the upper part of the stimulation generating part by moving the pressure rod forward, and the stimulation generating part rotates relative to the stimulation member coupling part while the stimulation projection presses the wearing body to generate stimulation.
  2. In paragraph 1, A finger Braille input/output wearable module comprising a finger Braille input unit positioned at the end of an area corresponding to the shape of a finger in the above-mentioned wearable body, enabling the input of a message based on finger Braille.
  3. In Article 2, The above finger Braille input unit is, In the above-mentioned wearable body, an input part fastening member coupled to the lower part of the end of a portion corresponding to a finger shape; and A finger Braille input/output wearable module including an input button located on the upper part of the input part fastening member.
  4. In Article 2, The finger Braille input section is a finger Braille input/output wearable module having at least three or more locations in an area corresponding to the shape of a finger on the wearable body.
  5. In paragraph 4, The finger Braille output unit is a finger Braille input/output wearable module located across an area corresponding to the shape of the back of the hand in the wearing body, or across the rear end of an area corresponding to the shape of the back of the hand and an area corresponding to the shape of the finger.
  6. In paragraph 4, The above finger Braille output unit is, A stimulation member that generates a stimulation for message output based on finger Braille, including a stimulation generating unit that rotates about an axis; and A finger Braille input/output wearable module comprising a driving member provided in a piston structure that presses the upper part of the stimulation generating part.
  7. A finger Braille input/output wearable module that is worn on the hand and provided to enable input and output of messages based on finger Braille; and A controller comprising a finger Braille-based message input from the finger Braille input/output wearable module, a text message, and a text message converted into a finger Braille-based message and then output through the finger Braille input/output wearable module, The above finger Braille input/output wearable module is, A wearable body provided with a glove structure; and It includes a finger Braille output unit coupled to the above-mentioned wearable body and outputting a message based on finger Braille, The above finger Braille output unit is, Stimulation member coupling portions individually disposed on the upper surface of each finger of the above-mentioned wearable body; A stimulation generating part capable of relative rotation with respect to the stimulation member coupling part and having a stimulation projection formed at its tip; and A driving member positioned on the back of the hand of the above-mentioned wearable body and moving a pressure rod located in the front area forward, wherein A finger braille-based communication device in which, through the forward movement of the above-mentioned pressure rod, the pressure rod presses the upper part of the stimulation generating part, and as the stimulation generating part rotates relative to the stimulation member coupling part, the stimulation projection presses the wearing body to generate stimulation.
  8. In Paragraph 7, A finger braille-based communication device including a communication module that transmits and receives data with a terminal through a network.
  9. In Paragraph 7, It further includes a camera module that captures an image and transmits it to the controller, A finger braille-based communication device in which the controller processes data received from the camera module to extract text data and converts the extracted text information into a finger braille-based message.
  10. In Paragraph 7, The above finger Braille input/output wearable module is, A finger Braille-based communication device comprising a finger Braille input unit positioned at the end of an area corresponding to the shape of a finger in the wearable body, enabling the input of a message based on finger Braille.
  11. delete
  12. terminal; and A finger-based Braille communication device connected to the terminal via a network, The above finger-based Braille communication device is, A finger Braille input/output wearable module that is worn on the hand and provided to enable input and output of messages based on finger Braille; and A controller comprising a finger Braille-based message input from the finger Braille input/output wearable module, a text message, and a text message converted into a finger Braille-based message and then output through the finger Braille input/output wearable module, The above finger Braille input/output wearable module is, A wearable body provided with a glove structure; and It includes a finger Braille output unit coupled to the above-mentioned wearable body and outputting a message based on finger Braille, The above finger Braille output unit is, Stimulation member coupling portions individually disposed on the upper surface of each finger of the above-mentioned wearable body; A stimulation generating part capable of relative rotation with respect to the stimulation member coupling part and having a stimulation projection formed at its tip; and A driving member positioned on the back of the hand of the above-mentioned wearable body and moving a pressure rod located in the front area forward, wherein A communication system for a visually and hearing impaired person in which the pressure rod presses the upper part of the stimulation generating part by moving the pressure rod forward, and the stimulation generating part rotates relative to the stimulation member coupling part, and the stimulation projection presses the wearing body to generate stimulation.

Description

Finger Braille input/output wearable module, finger Braille-based communication apparatus, and communication system for the hearing-impaired comprising the same The present invention relates to a finger Braille input/output wearable module, a finger Braille-based communication device, and a communication system for visually and hearing impaired persons including the same. More specifically, the invention relates to a finger Braille input/output wearable module, a finger Braille-based communication device, and a communication system for visually and hearing impaired persons including the same, which enables visually and hearing impaired persons to input messages and receive messages from the other party based on finger Braille. Individuals with deafblindness are unable to communicate with others due to simultaneous impairments in both sight and hearing. In this context, impairment in both sensory functions implies the loss of three communication methods—hearing, reading, and writing—or, if hearing impairment is accompanied by a speech impediment, the loss of all modes of communication. In order to enable people with visual and hearing impairments to communicate, they have no choice but to use their remaining sense of touch, which leads to the use of Braille. However, there is a problem where communication becomes practically impossible if the person with visual and hearing impairments wishes to communicate with does not know Braille. FIG. 1 is a drawing showing a communication system for visually and hearing impaired people according to one embodiment of the present invention. Figure 2 is a diagram showing the execution screen of a terminal. Figure 3 is a block diagram showing the configuration of a finger braille-based communication device. Figure 4 is a diagram showing a finger Braille input/output wearable module. Figure 5 is a drawing showing the finger Braille input section of the finger Braille input/output wearable module of Figure 4. Figure 6 is a drawing showing the finger Braille output section of the finger Braille input/output wearable module of Figure 4. Figure 7 is a diagram showing the structure of the controller. Figure 8 is a diagram illustrating the process of a user of a finger braille-based communication device inputting a message using a finger braille input/output wearable module. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings. However, the technical concept of the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided to ensure that the disclosed content is thorough and complete and to ensure that the concept of the present invention is sufficiently conveyed to those skilled in the art. In this specification, when a component is described as being on another component, it means that it may be formed directly on the other component or that a third component may be interposed between them. Additionally, in the drawings, the thicknesses of the films and regions are exaggerated for the effective description of the technical content. Additionally, although terms such as first, second, third, etc., have been used to describe various components in the various embodiments of this specification, these components should not be limited by such terms. These terms are used merely to distinguish one component from another. Accordingly, what is referred to as the first component in one embodiment may be referred to as the second component in another embodiment. Each embodiment described and illustrated herein also includes its complementary embodiment. Furthermore, in this specification, "and/or" is used to mean including at least one of the components listed before and after it. In the specification, singular expressions include plural expressions unless the context clearly indicates otherwise. Furthermore, terms such as "include" or "have" are intended to specify the existence of the features, numbers, steps, components, or combinations thereof described in the specification, and should not be understood as excluding the existence or addition of one or more other features, numbers, steps, components, or combinations thereof. Additionally, in this specification, "connection" is used to include both indirectly connecting multiple components and directly connecting them. In addition, in describing the present invention below, if it is determined that a detailed description of related known functions or configurations could unnecessarily obscure the essence of the invention, such detailed description will be omitted. FIG. 1 is a drawing showing a communication system for visually and hearing impaired people according to one embodiment of the present invention. Referring to FIG. 1, a communication system (1) for a visually and hearing impaired person according to one embodiment of the present invention includes a termina