RU151552U1 - ORTHOPEDIC SHOES - Google Patents

Abstract

Orthopedic shoes, consisting of a rigid sole, a heel attached to the sole, and straps fixing the foot, characterized in that the rigid sole is made of metal, with a rubber lining, and the heel is made hollow, rectangular, the role of the walls of the heel is played by rectangular rubber stops that are attached to the front and back half-arcs attached to the sole are placed perpendicular to the sole inside the heel, the front half-arch being shorter than the back and has a metal platform for supporting the base of the heel a, the base of the heel is metal and is attached to the back half-arc.

Description

The utility model relates to medicine, namely to surgery of traumatology and orthopedics.

Currently, various models of orthopedic postoperative shoes are known that are used to correct various types of foot deformities. To unload the forefoot after surgical interventions or after an injury, orthopedic shoe models are proposed that allow for early activation and better rehabilitation of patients. Existing models are represented by shoes with a rigid sole and a massive heel of a square, oblong shape or the shape of a truncated pyramid, on which the main support is carried out. When walking in such shoes, it is difficult for patients to maintain balance, they have to walk carefully, experiencing constant tension. A massive heel often extends beyond the Lisfranc joint and causes pressure on the metatarsal bones, which is unacceptable during operations in this area or an injury to the forefoot.

Known orthopedic shoes, consisting of a rigid sole, a heel attached to the sole, and foot-fixing straps, characterized in that the heel made of micropores or hard rubber has the form of a truncated pyramid, on the front and back surfaces of which cutouts are triangular in shape, and The cutout angle on the front surface is 95 °, the cutout angle on the back surface is 75 °, and the side of the heel attached to the sole is 2 cm longer than the base of the heel (RF Patent for Utility Model No. 39810, class A61F 5/00, publ. 08/20/2004).

A disadvantage of the known utility model is a massive heel which is solid and, regardless of its shape, does not evenly distribute the load, and excessive load on the back of the foot can lead to injury. The heel in the shape of a truncated pyramid has a narrowing in the center that may not withstand heavy loads or long use, and damage can lead to repeated injury since all phases of the step depend on the integrity of the heel. Also, in this model, the function of replacing the phases of the step and, more importantly, the roll of the foot, regardless of the shape of the heel, occurs quickly, which prevents the patient from maintaining equilibrium, and a similar structure of the heel does not allow you to adjust this function. The rubber sole of the prototype cannot provide the proper immobilization of the foot, as it is not hard enough.

The objective of the utility model is to eliminate these shortcomings. The structure of the heel allows you to evenly distribute the load, part of which is absorbed due to the amotization ability of the semi-arches and can significantly reduce the possibility of injury to the hindfoot. The rectangular heel has a more solid structure and can significantly reduce the possibility of unexpected breakdowns even with heavy loads and prolonged use. The structure of the heel and half arcs make it possible to make the phases of the step, and especially the roll of the foot, smoother and, as a result, more physiological and familiar to the patient, which allows the latter to better maintain balance and control the walking process. A solid metal sole allows you to better immobilize the foot and therefore contributes to its speedy healing and eliminates the possibility of injury.

The essence of the utility model is that orthopedic shoes consist of a rigid sole, a heel attached to the sole and straps fixing the foot, while the rigid sole is made of metal with a rubber overlay, and the heel is made hollow rectangular, the role of the walls of the heel is played by rectangular rubber guards, which are attached to the sole, inside the heel, perpendicular to the sole, the front and rear half-arcs attached to the sole are placed, the front half-arch, shorter than the back and has a metal platform for I support the base of the heel, the heel base metal and is fastened to the back of half-arches.

The figure shows a diagram of shoes fixed on the foot, where 1 is the hard sole, 2 is the heel, 3 is the front half-arc, 4 is the metal platform, 5 is the rear half-arc, 6 is the rubber rectangular stops, 7 is the base of the heel, 8 is the foot thongs.

Orthopedic shoes, consists of a rigid sole 1, a heel 2 attached to the sole 1 and foot-fixing straps 8, while the rigid sole 1 is made of metal with a rubber overlay, and the heel 2 is made hollow rectangular, the role of the walls of the heel is played by rectangular rubber limiters 6 which are attached to the sole 1, inside the heel 2, perpendicular to the sole 1, the front 3 and rear 5 half-arcs attached to the sole 1 are placed, the front 3 half-arcs, shorter than the rear 5 and has a metal pad 4 for supporting the base of the cable ka 7, the base of the heel 7 is metal and is attached to the back 5 half-arc.

Functioning principle: when walking the patient, the metal sole 1 with a rubber pad and the foot-fixing straps 8 can reliably fix and immobilize the diseased limb. When stepping on a sore limb, all the load from the forefoot is redistributed to its hind parts due to the rectangular heel 2, which is hollow and the back half-arc 5 is located inside it attached to the metal sole with rubber pad 1 and to the metal base of the heel 7, which, absorbing, absorbs part of the load, after which the foot roll function is performed due to the shorter front half-arc 3, which has a metal platform 4 for greater stability and amo tiziruya also absorbs both 5 and rear semiarc load. This design allows you to redistribute the load from the front of the foot to the back, and the short front 3 half-arches with a platform 4 and longer rear 5, together with four rubber rectangular stops 6 allow you to replace the roll function of the foot and simulate the main phases of the step, it is this structure of the half arches that makes the phases steps are smoother, and therefore more physiological and familiar to the patient, which allows patients to confidently transfer the center of gravity from one foot to another and control all phases of the step. During the onset, part of the load is also absorbed by rubber limiters 6, which prevent damage to the half arcs. Due to this shoe structure, the front foot is completely unloaded and the load is redistributed and absorbed in the hindfoot, which helps to avoid excessive load on the hindfoot and related complications.

The use of this orthopedic postoperative shoe makes it possible to activate patients immediately after surgery, significantly improving the postoperative rehabilitation of patients.

Claims (1)

Orthopedic shoes, consisting of a rigid sole, a heel attached to the sole, and straps fixing the foot, characterized in that the rigid sole is made of metal, with a rubber lining, and the heel is made hollow, rectangular, the role of the walls of the heel is played by rectangular rubber stops that are attached to the front and back half-arcs attached to the sole are placed perpendicular to the sole inside the heel, the front half-arch being shorter than the back and has a metal platform for supporting the base of the heel a, the base of the heel is metal and is attached to the back half-arc.

Images