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Forceps cervical traction device

A cervical traction and pincer technique, which is applied in the fields of medical science, fractures, passive exercise equipment, etc., can solve the problems of large longitudinal force on the atlas and pivot cone, unfavorable repair of damaged cervical vertebrae, and absence of traction force, etc., to achieve Avoiding secondary injuries, simple structure, and the effect of eliminating stress

Inactive Publication Date: 2016-07-06
孙建章
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] In addition, there is also a pillow-shaped traction device, which uses a pillow to support the neck, so that the head is suspended in the air to generate a drooping force to perform traction on the cervical spine. The vertebra and the pivot cone are subjected to a large longitudinal force, and the squeezed part of the back of the cervical spine is the daily vulnerable part, which is not conducive to the repair of the damaged tissue of the cervical spine; but if the head is not suspended, the traction force will not exist

Method used

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  • Forceps cervical traction device
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  • Forceps cervical traction device

Examples

Experimental program
Comparison scheme
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Embodiment 1

[0018] Example 1: In Figure 4 , Figure 5 In the chair support clamp type cervical traction device shown, according to the traction height required by the user, the opening of the traction jaw 3 protrudes forward facing the user's neck, and the traction clamp 4 is fixedly connected to the upper end of the chair back 8, and the chair 10 becomes Support for traction tongs 4. The length of jaw arm 1 and jaw arm 2 protruding forward is subject to the natural curvature of the cervical spine; when pulling, the user sits on the chair surface 9 and clamps the lower edge of the temporal bone mastoid on both sides of the head. Insert it into the traction jaw 3 to support the head by clamping the temporal bone, so as to eliminate the pressure of the head on the cervical spine, and at the same time obtain traction in the natural sagging of the body. The installation height of the traction forceps 4 on the backrest 8 of the chair 10 is that the user sits on the chair surface 9, the body...

Embodiment 2

[0019] Example 2: figure 1 , figure 2 , image 3 The pincer type cervical traction device shown is also a specific embodiment of the shoulder-mounted pincer type cervical traction device of the present invention. The traction pincers 4 are pillow-shaped, and the protruding parts at both ends of the pillow are the jaw arm 1 and the jaw arm 2. The concave part in the middle of the pillow The groove is the traction jaw 3, and its shape becomes narrower and narrower as the upper end surface 5 and the lower end surface 6 extend toward each other, and the narrowest point is the position where it reaches the lower border of the temporal bone mastoid process. The distance from the rear end surface 7 to the position where the jaws clamp the temporal bone is based on the natural curvature of the user's cervical spine. When traction in a prone position, when the headrest enters the jaws 3 of the groove, the lower end surface 6 is placed on the shoulders to establish a support point, a...

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Abstract

The invention relates to a cervical vertebra traction physiotherapy device, in particular to a physiotherapeutic device adopting clamp-type cervical traction, which is composed of traction forceps 4 and a supporting member. Wherein the traction forceps 4 is made up of jaw arm [1], jaw arm [2], jaw [3], jaw arm 1 and jaw arm 2 inner sides form jaw 3, in order to clamp the temporal bone on both sides of the head, Its size is based on the fact that the inside of the front end of jaw arm 1 and jaw arm 2 can just clamp the temporal bone. The best clamping position is the depression at the lower edge of the mastoid process of the temporal bone, that is, the inner wall of the front end of jaw arm 1 and jaw arm 2 is just right. Insert into the depression formed by the mastoid of the temporal bone and the angle of the mandible. According to different usage occasions, the jaw arm 1 and the jaw arm 2 can be solidly integrated as required, or can be interspersed with hinges. The specific technical solutions of the clamp type cervical traction device mainly include three types: chair support clamp type, shoulder-mounted clamp type and hanging pull clamp type.

Description

technical field [0001] The invention relates to a cervical vertebra traction physiotherapy device, in particular to a physiotherapeutic device adopting pincer type cervical traction. Background technique [0002] Though the physical therapy device of existing cervical vertebra traction is a lot, mostly is to use the occipital-mandibular belt traction of collar formula, is called " sleeve formula " at this, and its main force position is the lower edge of mandible. This traction method has two major disadvantages: one is that because the mandibles on both sides are located in front of the earlobes, the center of the resultant force of the bilateral traction on the head is not in the axial center of the cervical column, so the head is tilted back during traction, which makes the daily occipital bone and atlas , The easily squeezed position between the atlas and the pivotal cone was squeezed again, and the original damaged parts were not effectively repaired but aggravated. Th...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61F5/042A61H1/02
Inventor 孙建章
Owner 孙建章
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