CN213820082U - Pressure-guiding type 3D printing orthopedic insole - Google Patents

Abstract

The utility model is suitable for a shoe-pad technical field provides a guide pressure formula 3D prints orthopedic shoe-pad, including the shoe-pad main part, the shoe-pad main part includes preceding palm portion, arch of foot portion and rear heel, preceding palm portion is equipped with inside sunken leading decompression district, the inboard upwards extension of arch of foot portion is formed with the navicular bone and supports the baffle, supreme reinforcement piece, the back heel bone support cup of following in proper order is followed to the rear heel portion, the edge that the back heel bone supported the cup upwards perk and forms the parcel limit, and this device is favorable to the pressure release of foot to play the buffering boosting effect, can provide good stable support and protection effect for the foot, play good orthopedic effect.

Description

Pressure-guiding type 3D printing orthopedic insole

Technical Field

The utility model belongs to the technical field of the shoe-pad, especially, relate to a guide pressure type 3D prints orthopedic shoe-pad.

Background

The physiological conditions of each foot are different, such as the heel, the arch, the forefoot and the foot length, and different shoes worn by different walking habits can finally cause different foot conditions, such as the heel bone inside and outside turning, the forefoot inside and outside turning and the like. The existing correction method is exercise treatment and auxiliary treatment of orthopedic insoles, most of the orthopedic insoles in the existing market are of integrally formed structures, and are high in hardness, free of elasticity, poor in pressure reduction effect and poor in air permeability, so that the orthopedic effect is difficult to achieve.

SUMMERY OF THE UTILITY MODEL

In view of the above problem, the utility model aims at providing a guide pressure type 3D prints orthopedic shoe-pad aims at solving current orthopedic shoe-pad decompression effect poor, the not good technical problem of gas permeability.

The utility model adopts the following technical scheme:

guide pressure formula 3D prints orthopedic shoe-pad includes the shoe-pad main part, the shoe-pad main part includes preceding palm portion, arch of foot portion and rear heel portion, preceding palm portion is equipped with inside sunken leading decompression district, the inboard upwards extension of arch of foot portion is formed with the navicular bone and supports the baffle, supreme benefit high piece, calcaneum buffer and the back calcaneum support cup for reinforcing in proper order is followed to the rear heel portion, the edge that the back calcaneum supported the cup upwards sticks up and forms the parcel limit.

Furthermore, leading decompression district is from top border to bottom border rounding off, leading decompression district extends towards the big toe direction and forms big toe decompression district, the back inboard of leading decompression district inwards extends and forms the arc support area, the top surface of arc support area is the domatic of highly reducing from outside to inside gradually.

Furthermore, a calcaneus buffer area is arranged between the reinforcing and height-supplementing piece and the rear heel bone supporting cup.

Furthermore, the calcaneus buffer area is of a longitudinal oval structure.

Furthermore, the front palm part, the arch part and the heel part are all provided with vent holes.

The utility model has the advantages that: the utility model provides a pressure-guiding 3D printing orthopedic insole, which is mainly designed for users who adjust the pressure phase change of feet and avoid the pain of feet with relative requirements, is beneficial to the pressure release of feet, plays a role in buffering and boosting, can provide good stable supporting and protecting effects for the feet and plays a good orthopedic role; the scaphoid supporting baffle is used for providing stable support and protection with enough height, and has good control function on the diseases of scaphoid pain, tarsal bone deformation, growth pain, oblique talus and the like of general teenagers; the front palm part, the arch part and the heel part are all provided with vent holes, thereby providing good ventilation effect for the insole.

Drawings

Fig. 1 is a bottom view of a guiding pressure type 3D printing orthopedic insole provided by an embodiment of the present invention;

fig. 2 is a left side view of a guiding pressure type 3D printing orthopedic insole provided by the embodiment of the present invention;

fig. 3 is a partial perspective view of a pressure-guiding 3D-printed orthopedic insole according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In order to explain the technical solution of the present invention, the following description is made by using specific examples.

Fig. 1 shows a structure of a guide pressure type 3D printing orthopedic insole provided by an embodiment of the present invention, and only parts related to the embodiment of the present invention are shown for convenience of description.

As shown in fig. 1-3, the orthopedic shoe-pad of guide pressure formula 3D printing that this embodiment provided includes shoe-pad main part 1, shoe-pad main part 1 includes preceding palm portion 2, arch of foot portion 3 and rear heel portion 4, preceding palm portion 2 is equipped with inside sunken leading decompression area 5, the inboard upwards extension of arch of foot portion is formed with scaphoid support baffle 6, heel portion 4 is supreme for reinforcing in proper order from the bottom supports high piece 7, calcaneal buffer 9 and rear heel bone support cup 8, the edge of rear heel bone support cup 8 upwards perks and forms the parcel limit, plays the support parcel effect, and the height of parcel limit selects different heights according to how much and pathological demand of weight and soft tissue, generally at 18mm-25 mm.

The front decompression area 5 is in smooth transition from the top edge to the bottom edge, the front decompression area 5 extends towards the direction of the big toe to form a big toe decompression area 51, the rear inner side of the front decompression area 5 extends inwards to form an arc-shaped supporting area 52, the top surface of the arc-shaped supporting area 52 is a slope surface with gradually reduced height from outside to inside, and the main supporting area is the position of the transverse arch of the foot, namely the transverse arch support. The front decompression area is beneficial to the pressure release of the forefoot and plays a role in buffering and boosting. The cushioning hardness is set to 20 or 30 or 40 in units of shore hardness.

More specifically, the calcaneus cushioning region 9 is of a longitudinal oval structure, and generally adopts a low-density high-resilience material. And configuring as matching.

In addition, the front sole part 2, the arch part 3 and the heel part 4 are all provided with vent holes 10 which are provided with structural mesh design, thereby providing good ventilation effect for the insole.

In this embodiment, the insole body bears the main weight of the foot, and generally adopts materials with better support and certain pressure resistance, such as nylon, TPU, polypropylene and the like; the front decompression area is beneficial to the pressure collection and release of the forefoot and plays a role in buffering and boosting; the scaphoid supporting baffle is used for providing stable support and protection with enough height, and has good control function on the diseases of scaphoid pain, tarsal bone deformation, growth pain, oblique talus and the like of general teenagers; the reinforcing height supplementing piece plays a role in buffering the calcaneus ground and supplementing height to stabilize walking; the rear calcaneus support cup is used to provide stable support of the calcaneus of the foot, providing the necessary varus and valgus stabilization control. The design of the calcaneus buffer zone is especially the unstable factor generated by the change of the heel-to-ground pronation action to the supination action in the gait cycle, and is used for providing certain calcaneus direction guidance.

To sum up, the utility model provides a guide pressure type 3D prints orthopedic shoe-pad, mainly aim at the foot pressure phase change and adjust and the painful user design who dodges relevant demand of foot, be favorable to the pressure release of foot to play the buffering boosting effect, can provide good stable support and protection effect for the foot, play good orthopedic effect; the scaphoid supporting baffle is used for providing stable support and protection with enough height, and has good control function on the diseases of scaphoid pain, tarsal bone deformation, growth pain, oblique talus and the like of general teenagers; the front palm part, the arch part and the heel part are all provided with vent holes, thereby providing good ventilation effect for the insole.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (5)

1. The utility model provides a guide pressure formula 3D prints orthopedic shoe-pad, a serial communication port, including the shoe-pad main part, the shoe-pad main part includes preceding palm portion, arch of foot portion and rear heel, preceding palm portion is equipped with inside sunken leading decompression district, the inboard upwards extension of arch of foot portion is formed with the navicular bone and supports the baffle, supreme benefit high piece, the back heel bone support cup for reinforcing in proper order is followed to rear heel portion, the edge that the back heel bone supported the cup upwards sticks up and forms the parcel limit.

2. The guided pressure type 3D printing orthotic insole of claim 1, wherein the forward pressure relief area is rounded from a top edge to a bottom edge, the forward pressure relief area extends toward the hallux to form a hallux pressure relief area, a rear inner side of the forward pressure relief area extends inward to form an arc support area, and a top surface of the arc support area is a slope surface with a gradually decreasing height from the outside to the inside.

3. The guided pressure 3D printing orthotic insole of claim 2, wherein a calcaneus cushioning region is further provided between the augment and the rear calcaneus support cup.

4. The guided pressure type 3D printing orthopedic insole of claim 3, wherein the calcaneus cushioning region is a longitudinal oval structure.

5. The guided pressure type 3D printing orthotic insole of claim 4, wherein ventilation holes are provided on the forefoot portion, the arch portion and the heel portion.

Images