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KR-20260065408-A - Fastening Belt For Caring

KR20260065408AKR 20260065408 AKR20260065408 AKR 20260065408AKR-20260065408-A

Abstract

The present invention is a structure for measuring the compression force of a cylindrical compression band applied to the body, such as the legs or arms, before and after treatment of a person or a pet, so as to eliminate external impact on the wound area of a person, reduce pressure directly applied to the body, such as the arms and legs in the case of a person, and facilitate treatment by preventing the pet from falling over and moving during treatment, by marking a scale (numerical value) on a fixed compression band that forms a certain portion of male Velcro on the inside and a female Velcro on the outside to quickly wrap and fix the body. A rounding extension prosthesis (100ey) that can be wrapped around the body is added to one side of a plastic prosthesis, and a folding groove (100fy) that can be folded and wrapped around the rounding extension prosthesis (100ey) is formed in the rounding extension prosthesis (100ey), so that when the band winder (120) is wrapped around the body, the band winder (120) can be easily bent while maintaining a flat state.

Inventors

  • 송승철
  • 송승아
  • 조현

Assignees

  • 송승철
  • 송승아
  • 조현

Dates

Publication Date
20260508
Application Date
20241101

Claims (3)

  1. A waist fixing band belt (100) is formed by integrally comprising a belt body part (110) having a soft female Velcro (112) formed on an outer end and a band winder (120) having a rough male Velcro (122) formed on an inner end, and two outer cover fabrics are joined and sewn together, and a small-size plastic implant (100ax) is inserted between the outer cover fabrics of the belt body part (110) to form a crescent shape with a size of 40% of the total circumference and an open edge corner (100x) in a cylindrical, flared crescent shape, wherein the belt body part (110) of the waist fixing band belt (100) at the part where the belt body part (110) and the band winder (120) are connected is formed in a shape in which the width decreases, and the waist fixing band belt is formed to act on the lumbar-sacral joint (1150) formed from the lumbar vertebrae (1140) of the cat's waist to the buttocks. A fixed compression band characterized by covering the lumbar spine of a cat and positioning it close to the front side of the thigh of the hind leg, with a reference line (151) marked on the end edge of the belt main body (110) and a scale value (152) marked on the side of one end of the band winder (120) so that the Velcro can always be fastened with a constant pressure.
  2. A waist fixing band belt (100) is formed by integrally comprising a belt body part (110) having a soft female Velcro (112) formed on the outer end and a band winder (120) having a rough male Velcro (122) formed on the inner side, and two outer cover fabrics are joined and sewn together, and a large-size plastic implant (100ay) is inserted between the outer cover fabrics of the belt body part (110) to form a crescent shape with a size of 60% of the total circumference and a cylindrical, contracted crescent-shaped loop edge (100y). The belt body part (110) at the part where the belt body part (110) and the band winder (120) of the waist fixing band belt (100) are connected is formed in a shape where the width decreases, and the waist fixing band belt is formed to act on the lumbar-sacral joint (1150) formed from the lumbar vertebrae (1140) of the cat's waist to the buttocks. A fixed compression band characterized by covering the lumbar spine of a cat and positioning it close to the front side of the thigh of the hind leg, with a reference line (151) marked on the end edge of the belt main body (110) and a scale value (152) marked on the side of one end of the band winder (120) so that the Velcro can always be fastened with a constant pressure.
  3. In Article 1 or Article 2, A fixed compression band characterized by having a rounding extension prosthesis (100ey) that can be wrapped around a body attached to one side of a plastic prosthesis, wherein a folding groove (100fy) is formed in the rounding extension prosthesis (100ey) so that it can be folded and wrapped in a round shape, so that when the band winder (120) is wrapped around the body, the band winder (120) can be easily bent while maintaining a flat state.

Description

Fastening Belt for Caring The present invention relates to a fixed compression band applied to humans or pets, and more specifically, to a fixed compression band for measuring the compression force of a cylindrical compression band applied to the body, such as the legs or arms, before and after medical treatment of humans or pets. It is structured to quickly wrap and secure the body by marking a scale (numerical value) on the fixed compression band, which forms a certain portion of male Velcro on the inside and the entire outside, in order to eliminate external impact to the wound site of a human, reduce pressure directly applied to the body, such as the arms and legs, in the case of a human, and facilitate treatment by preventing the pet from falling over and moving during treatment. First of all, to explain using the example of a pet cat, cats are not only able to scratch their own faces with their hind legs and lick their genitals or anus with their mouths, but their bodies are also extremely flexible, to the point where they can survive even falling from a height several times greater than their own height. This physical flexibility allows sharp teeth and claws to come into contact with a person during care, often causing injury and making care difficult. Therefore, in the past, methods used to subdue and restrain cats involved covering them with blankets or pouches, but this had the disadvantage that the types of care that could be performed while covered were extremely limited because most of the body parts other than the face were covered. Looking at the conventional general technology in drawings, Fig. 1 is a drawing comparing a human ankle bone (a) and a cat ankle bone (b), and Fig. 2 is a schematic diagram of video and motion analysis showing a motion state in which the head and shoulders move when a cat walks. (a) and (b) shown in the drawing in Fig. 1 represent the human arm bone and the cat forelimb bone, respectively, and unexplained symbols 11 and 12 represent the parts that provide a common snap, showing that humans and cats exhibit similar comparative anatomical features. As shown in the drawing above, a fixation band belt set for cat medical examination and care was developed to improve these problems that make cat care difficult. As a basic background for this study, the skeletal anatomical structure of cats was first studied, and the shape and position of the skeletons and joints that induce flexibility in the cat's body were shown in the schematic diagram of Fig. 3. A cat's spine consists of 7 cervical vertebrae, 13 thoracic vertebrae, 7 lumbar vertebrae, 3 sacral vertebrae, and 22 to 23 coccygeal vertebrae, which is about 20 more than in humans; consequently, this allows for much more flexible spinal movement. Furthermore, unlike other mammals, a cat's clavicle is very small and does not articulate directly with the scapula or sternum, allowing it to move independently and thereby amplifying flexibility. Based on this flexibility, cats can freely and rapidly assume any position they desire, such as performing excellent leaps and landings, crawling into tight spaces, and licking every nook and cranny of their bodies. Although a cat's bite force is only about 20 to 75 psi, they possess sharp teeth. Their claws are not only sharp but can also be retracted and extended through the contraction and relaxation of ligaments and tendons connected to the toe bones (see Fig. 1). Also, Figure 1 is a diagram comparing a human wrist and the ankle bone of a cat's foreleg, showing that just as a cat uses the snap of its wrist when spiking a volleyball match, it uses the snap of its foreleg to perform a scratching motion. The scratching motion of a cat consists of a series of complex actions, including rotational movement by the ball-and-socket joints of the scapula and humerus, hinge movement and slight rotational movement by the hinge joints of the humerus, radius, and ulna, bending movement and slight rotational movement by the elliptical joints of the ulna and tarsal bone, and finally, the movement of the claws being folded and raised by the elastic ligaments located between the toe bones, along with tendons related to flexion and extension that extend over the outside of the toe bones. In addition, motion analysis was performed to explain the flexibility of the body when a cat walks, and as shown in FIG. 2, it is shown that when the cat steps forward with its right front leg (1000a), the left shoulder rises and the head turns to the left, and when it steps forward with its left front leg (1000b), the right shoulder rises and the head turns to the right. In this way, it was analyzed that in the case of a cat, the legs, spine, shoulders, and neck are interconnected and exhibit a continuous wave phenomenon. The unexplained symbol 1000 represents the body of a cat. In the case of dogs, this movement is very slight, and this phenomenon, which is unique to cats, was found to be due to 1) the large numbe