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CN-122005167-A - A quantifiable adjustment spine orthosis body and spine orthosis for teenagers

CN122005167ACN 122005167 ACN122005167 ACN 122005167ACN-122005167-A

Abstract

Embodiments of the present disclosure disclose a quantifiable-adjustment spinal orthosis body for teenagers. The device comprises a spine orthosis main body, a hollowed-out hole array, a fixed point array and scale marks, wherein the hollowed-out hole array penetrates through the thickness direction of the spine orthosis main body to form a hole structure, the fixed point array is arranged adjacent to the scale marks, the scale marks can indicate relative position coordinates of the fixed point array on the spine orthosis main body, each fixed point in the fixed point array can be detachably connected with an orthopedic force assembly through a quick adjusting mechanism, the quick adjusting mechanism can adjust the position of the orthopedic force assembly fixed on the spine orthosis main body, a connecting structure is arranged at the end of the spine orthosis main body, and the connecting structure is detachably connected with an external suspension device. According to the embodiment, quantification of orthopedic point positions can be achieved, the weight of the main body of the spinal orthosis is reduced, the stuffiness of wearing for a long time is reduced, and the comfort level of a user during wearing is improved.

Inventors

  • WANG XINYU
  • CHEN HEQI
  • LI ZHENG

Assignees

  • 中电医疗科技(海南)有限公司

Dates

Publication Date
20260512
Application Date
20260311

Claims (9)

  1. 1. A quantifiable adjustment spinal orthosis body for teenagers, wherein the spinal orthosis body is an elongated structure adapted to conform to the curvature of the sagittal plane of the human spine, the spinal orthosis body having a natural curvature conforming to the sagittal plane of the human spine; The spine orthosis main body is provided with a hollowed-out hole array, a fixed point array and scale marks along the length direction; the hollowed-out hole array penetrates through the thickness direction of the spine orthosis main body to form a hole structure; The fixed point array is arranged adjacent to the scale marks, and the scale marks can indicate the relative position coordinates of the fixed point array on the spine orthosis main body; Each fixed point in the fixed point array can be detachably connected with an orthopedic force component through a quick adjusting mechanism, and the quick adjusting mechanism can adjust the position of the orthopedic force component fixed on the main body of the spine orthosis; The end of the spine orthosis main body is provided with a connecting structure which is detachably connected with an external suspension device.
  2. 2. The quantifiable spinal orthosis body for teenager of claim 1, wherein the scale markings are formed on the surface of the spinal orthosis body by at least one of etching, laser engraving, printing, pasting scale labels, silk screening, painting.
  3. 3. The quantifiable spinal orthosis body for adolescents of claim 1, wherein the surface of the spinal orthosis body is anodized or painted or laser engraved to form a differential appearance layer.
  4. 4. The quantifiable spinal orthosis body for an adolescent according to claim 1, characterized in that the surface of the spinal orthosis body is detachably connected to a cushioning pad.
  5. 5. The quantifiable spinal orthosis body for an adolescent according to claim 1, characterized in that the thickness of the spinal orthosis body decreases continuously from center to edge forming a smooth transition surface.
  6. 6. The quantifiable spinal orthosis body for teenager of claim 1, wherein the array of hollowed-out holes has a shape including at least one of a regular geometry, a biomimetic mesh structure, a personalized decorative pattern.
  7. 7. The quantifiable spinal orthosis body for an adolescent according to claim 1, characterized in that the spinal orthosis body is made of metal or high-strength plastic.
  8. 8. The quantifiable spinal orthosis body for adolescents of claim 4, wherein the array of hollowed-out holes is symmetrically distributed along an axis of the spinal orthosis body; Each hollow hole in the hollow hole array is subjected to polishing treatment, and the edge position of each hollow hole is provided with a smooth transitional closed contour edge; the spine orthosis main body is also provided with a plurality of cushion pad fixing holes; The surface of one side of the buffer cushion, which is away from the human body, is provided with a plurality of fixing pins, the number and the positions of the fixing pins are corresponding to those of the buffer cushion fixing holes, and the fixing pins can be embedded into the buffer cushion fixing holes; The buffering pad can be attached to the surface of the spine orthosis main body, the buffering pad is provided with an air vent array corresponding to the hollowed-out hole array, and the hollowed-out hole array and the air vent array can form a continuous air vent channel.
  9. 9. A spinal orthosis comprising the spinal orthosis body of claim 1-8, an external suspension device, and at least one orthopedic force component; The external suspension device is detachably connected with the connecting structure of the spine orthosis main body and is used for suspending and stabilizing the spine orthosis main body on the back of a user; The orthopedic force assembly comprises a connecting rod and an orthopedic sheet arranged at one end of the connecting rod; The other end of the connecting rod is detachably connected with the spine orthosis main body; The orthopedic plate is capable of applying an orthopedic force to a user through the connecting rod.

Description

A quantifiable adjustment spine orthosis body and spine orthosis for teenagers Technical Field Embodiments of the present disclosure relate to the technical field of medical devices, and in particular to a quantifiable-adjustment spinal orthosis body and spinal orthosis for teenagers. Background Adolescent idiopathic scoliosis is a spinal deformity condition with high growth and development period, the degree of spinal deformity of a patient can continuously progress along with the growth and development of bones, and a spinal orthosis (orthopedic brace) is a medical instrument for assisting in correcting spinal deformity, supporting the spinal column and limiting abnormal activities of the spinal column. The core component of the spine orthosis is an orthopedic keel (main body of the spine orthosis), the structural design of the orthopedic keel directly determines the suitability, the use stability and the overall performance of the orthosis, and the complete spine orthosis needs to be matched with the supporting components in a cooperative manner so as to realize a good orthopedic supporting effect. Conventional orthopedic keels are typically simply bent from solid metal strips (e.g., aluminum alloy) and are typically fixedly attached to the mating components, resulting in a complete spinal orthopedic device that is a non-mobile unit. However, in practice it has been found that when the above-described orthopedic keels and spinal orthopedic devices are employed, there are often the following technical problems: First, solid metal strip has improved the gross weight of orthopedic fossil fragments, leads to wearing the travelling comfort for a long time poor to the solid structure of orthopedic fossil fragments coincides with the backbone, blocks the X ray and pierces through, makes the user shoot the backbone X film image blurring under wearing orthopedic brace state, and key anatomical detail is sheltered from, and doctor is difficult to accurate aassessment correction effect in the orthopedic brace of side bend, thereby is difficult to adjust the correction brace in order to improve the treatment. Meanwhile, the solid structure is poor in air permeability, skin stuffiness and sweat accumulation are caused by long-term wearing, skin problems are easy to cause, comfort is poor, and experience of a user is low. Secondly, the fixing position of the orthopedic keel and the matched assembly is determined by a brace operator according to the fit degree of the body of the user, the orthopedic point position cannot be quantified, repeated positioning is difficult to achieve when the orthopedic keel is reinstalled after the orthopedic point position is disassembled, and the orthopedic effect of the spine is affected. Third, the spinal orthopedic device cannot be conveniently adjusted in position according to the growth or treatment stage change of the patient, and the maintenance is difficult after the damage of different parts, so that the whole spinal orthopedic device often needs to be replaced, and the cost is high. The above information disclosed in this background section is only for enhancement of understanding of the background of the inventive concept and, therefore, may contain information that does not form the prior art that is already known to those of ordinary skill in the art in this country. Disclosure of Invention The disclosure is in part intended to introduce concepts in a simplified form that are further described below in the detailed description. The disclosure is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter. Some embodiments of the present disclosure propose a quantifiable spinal orthosis body and spinal orthosis for teenagers to address one or more of the technical problems mentioned in the background section above. In a first aspect, some embodiments of the present disclosure provide a quantifiable adjustment spinal orthosis body for teenagers, the spinal orthosis body being an elongated structure that is adapted to the curvature of the sagittal plane of the human spine, the spinal orthosis body having a natural curvature that conforms to the sagittal plane of the human spine, the spinal orthosis body being provided with an array of hollowed holes extending in a longitudinal direction, an array of fixation points and a scale mark, the array of hollowed holes forming a hole structure through a thickness of the spinal orthosis body, the array of fixation points being disposed adjacent to the scale mark, the scale mark being capable of indicating a relative position coordinate of the array of fixation points on the spinal orthosis body, each fixation point in the array of fixation points being capable of being detachably connected to an orthopedic force assembly by a quick adjustment mechanism, the quick adjustment mechanism being capable of adjusting a position at whic