RU2797736C1 - Anti-slip sole with steel studs for outdoor use and ice surfaces - Google Patents

Abstract

FIELD: shoes materials.

SUBSTANCE: present invention describes an anti-slip sole with steel studs for outdoor use and on icy surfaces. The device structurally comprises a studded hoof frame, a concave-convex serrated sole, a studded heel frame, and a one-piece composite sole. According to the present invention, due to the combination of a concave-convex serrated sole and a one-piece composite sole, as well as thanks to the hoof-shaped frame with studs and heel frame with spikes, the manufacturing of the sole of the present invention is possible by opening the mould and removing from the mould various sole materials that have hardness and elasticity. Short conical studs are inserted into a concave-convex serrated sole and a one-piece composite sole to form a moulded sole with a variety of rough surfaces suitable for uneven ground and smooth slopes. The present invention achieves the effect of flexible extension and return of the studs, thereby improving the slip resistance of the steel studded anti-skid sole on the street and on icy surfaces, while not limiting the invention in terms of applications and moulding materials. According to the functionality of Hooke's law connecting nodes, the hoof-shaped frame formed by the anti-skid structure and steel studs imitates the hoof of an animal to realize the anti-skid function.

EFFECT: wrapped and combined sole improves the anti-slip effect and promotes walking comfort.

9 cl, 8 dwg

Description

Technical field

The present invention describes an anti-slip sole with steel spikes for outdoor use and on icy surfaces; belongs to the field of shoe materials.

State of the art

The structure of the sole is quite complex, in a broad sense it can include the sole itself, the insole and all the materials that form the sole, and in the narrow sense it can only mean the sole. The general characteristics of sole materials are wear resistance, water resistance, oil resistance, heat resistance, pressure resistance, impact resistance, good elasticity, suitability for various foot types, no deformation after molding, heat retention, moisture absorption, etc.

At the same time, the lower part of the sole should fit the main insole in order to have a proper stop effect when changing feet while walking to prevent falling and stop easily; the raw materials for making soles are varied and can be divided into natural and synthetic sole materials; natural sole materials include natural sole leather, bamboo, wood, etc.; synthetic sole materials include rubber, plastics, rubber-plastic composite materials, regenerated leather, elastic hard cardboards, etc.; carbide anti-skid studs are mainly used for car tires in cold and wet regions, hiking shoes/boots, ski poles, etc.; performance requirements for anti-skid studs vary depending on the application and different types of built-in grooves; however, the anti-skid stud materials are mainly characterized by wear resistance, low temperature resistance, high hardness, etc.; There are the following shortcomings of the prior art to be corrected:

The carbide studs on the outsole of the shoe/cleat cause walking discomfort as they are embedded in the sole and can pick up clods of clay, weeds and small stones when used on snowy and mountainous terrain, muddy ground, gully terrain and grassy areas playgrounds, etc., which affects the walking stability and wear of the connecting roots of the steel spikes; dirt dried on steel spikes is difficult to remove; furthermore, the steel spikes are arranged randomly on the sole of the shoe/cleat, which creates more inertia when falling as a result of wearing shoes/cleats with steel spikes on a slippery surface; steel studs cause discomfort to the foot, can cause ankle dislocation, they also affect the adaptability of the foot to various irregularities of the sole, since the convenience of pressing in the studs of the sole depends on the thickness of the one-piece composite sole and the high wear of the top of the inner part of the sole.

Brief description of the invention

Due to the shortcomings of the prior art, the aim of the present invention is to provide an anti-slip sole with steel studs for outdoor use and on icy surfaces, as well as to solve the problems associated with the use of carbide steel studs on the soles of shoes / boots, causing walking discomfort, because the studs inserted into the sole and can pick up clods of clay, weeds and small stones when worn on snowy and mountainous terrain, muddy ground, ravine and grassy areas of playgrounds, etc., which affects walking stability and wear of the connecting roots of steel spikes; dirt dried on steel spikes is difficult to remove; furthermore, the steel spikes are arranged randomly on the sole of the shoe/cleat, which creates more inertia when falling as a result of wearing shoes/cleats with steel spikes on a slippery surface; steel studs cause discomfort to the foot, can cause ankle dislocation, they also affect the adaptability of the foot to various irregularities of the sole, since the convenience of pressing in the studs of the sole depends on the thickness of the one-piece composite sole and the high wear of the inside of the upper of the sole.

In order to achieve the above objects, the present invention has been accomplished by the following technical solution: a steel studded anti-slip outsole for outdoor and icy surfaces is structurally composed of a hoof-shaped studded frame, a concave-convex serrated outsole, a studded heel frame, and a one-piece composite sole; hoof-shaped frame with spikes and heel frame with spikes are inserted into a concave-convex serrated sole and a one-piece composite sole and are in the same vertical plane; a concave-convex serrated outsole is installed in the front side of the one-piece composite sole and is in the same vertical plane; heel frame with spikes is installed in the lower part of the front side of the one-piece composite sole; a hoof-shaped frame with spikes is installed in the upper part of the front side of the one-piece composite sole and is located in the same vertical plane; studded heel frame is mechanically articulated to a one-piece composite sole; a horseshoe-shaped frame with spikes is mechanically connected to a one-piece composite sole by a swivel joint; the hoof-shaped frame with spikes is provided with hexagonal bosses, a ledge, short conical spikes and a hoof-shaped frame; the number of hexagonal lugs is four, two of the four hexagonal lugs are nested in the left and right lower corners on the inside of the hoof-shaped frame, respectively, and the other two are nested in the left and right upper corners on the inner side of the heel frame with spikes; the protrusion is made on the back side of the upper part of the hoof-shaped frame perpendicular to it; two or more short conical spikes are provided and inserted on the front side of the hoof frame and heel spike frame, respectively; and the hoof-shaped frame is inserted into a concave-convex serrated outsole and a one-piece composite outsole and is located in the same vertical plane.

To optimize the above technical solution, the following additional measures are taken:

The present invention is further improved as follows: a hexagonal boss consists of a hexagonal boss end block and a convex boss cap; the end block of the hexagonal boss is installed on the front side of the boss for the convex cap of the boss; and the end block of the hexagonal boss and the convex cap of the hexagonal boss are integrally connected and perpendicular to each other.

The present invention is further improved as follows: the spiked heel frame is composed of an arcuate frame and a protrusion of the rear part of the arcuate frame; the protrusion of the rear part of the frame is installed on the back side of the lower part of the arcuate heel frame; and the protrusion of the rear part of the arc frame and the arcuate heel frame are integrally connected and perpendicular to each other.

The present invention is further improved as follows: a one-piece composite outsole consists of lateral sides of the sole, an upper hoof compressible bridge, a studded lower hoof bridge, a composite insole, an arch bridge, an upper arcuate compressible bridge, and a lower studded arcuate bridge; two lateral sides of the sole are provided and attached to the left side and right side of the composite insole, respectively; the upper hoof-shaped compressible bridge and the lower hoof-shaped bridge with spikes are connected and located in the same vertical plane; the upper hoof-shaped compressible bridge and the lower hoof-shaped bridge with spikes are attached to the upper part of the front end surface of the composite insole; the upper arcuate compressible bridge and the lower arcuate bridge with spikes are connected; the upper arcuate compressible bridge and the lower arcuate bridge with spikes are attached to the lower part of the front end surface of the composite insole and are located in the same vertical plane.

The present invention is further improved as follows: The hoof frame is a sole composite skeleton structure in which the left wide arc hoof frame is superimposed on the right narrow hoof frame, which successfully imitates animal hooves and can achieve the performance effect of slip resistance and timely stop, also allowing cleat guidance on the frame and place them.

The present invention is further improved as follows: The hexagonal boss end block is a composite structure of the articulated shaft end block, consisting of a hexagonal short columnar block with a horizontal threaded through groove, which facilitates the insertion and bending of hexagonal assemblies, improves connection efficiency, as well as the strength of the end rotary swivel positions of the pressed-in frame.

The present invention is further improved as follows: the convex cap of the hexagonal boss is a composite convex connecting structure with an elongated landing end and an insertable hemispherical boss; and each of the protrusions of the arcuate surface on the top of the frame and the bottom of the frame, respectively, is a composite convex connecting structure with a short columnar landing end and an insertable hemispherical boss;

The present invention is further improved as follows: The heel arch frame is a composite arc strut structure formed with a 90-degree left-facing C-shaped bead and a built-in horizontal separation bar, which facilitates the molding of the camber and reinforcing bar of the heel strut structure, and improves the operating effect. a combined triangular multi-surface shear stress-bearing framework in which all the studs are fixed at five points in a fixed manner.

The present invention is further improved as follows: The arch bridge is a composite structure of the insole with a soft convex rubber pad located between the upper convex arch frame and the lower convex arch frame, which facilitates the application of the sole and protects the arch of the foot, thereby increasing comfort and cushioning effect. .

Useful action:

According to the anti-slip sole with steel studs for outdoor and icy use of the present invention, the sole is made by opening a mold and extracting various sole materials from a mold; mold opening and colloidal demoulding are carried out for the spiked hoof frame and spiked heel frame in advance to form anti-skid sole components; the hexagonal bosses form the upper and lower articulated shafts for the hoof frame and heel arch frame; then the hoof-shaped frame and the heel arc-shaped frame are fixed and rotated by means of the end blocks of the hexagonal lugs, and are fastened to the sole by the convex caps of the hexagonal lugs, thereby forming a composite frame; also, thanks to the protrusion and the protrusion of the rear part of the arcuate frame, an auxiliary rotary frame with spikes is formed to secure the pressing; short conical studs are adaptively inserted into the front side of the hoof frame and studded heel frame, thus effectively maintaining the protective effect as the steel studs grip the ground; and various molded roughness of the concave-convex serrated outsole is adaptive to the effect of wrapping and overlaying the frame of the one-piece composite sole, which provides effective slip resistance. various materials are used, which enhances its applicability and promotes the effect of flexible extension and return of the spikes of the steel frame of the composite sole.

The present invention can provide the following benefits after development:

Through the use of various composite elements, the concave-convex serrated outsole is combined with a one-piece composite outsole; by using the spiked hoof frame and the spiked heel frame, the present invention can be manufactured by opening the mold and removing various sole materials having hardness and elasticity from the mold; short conical studs are inserted into the concave-convex serrated outsole and one-piece composite sole, forming a molded molded outsole with different rough surface, suitable for uneven ground and smooth slopes, to achieve the effect of flexible extension and return of the studs, thereby improving the slip resistance of the anti-skid sole with steel spikes on the street and ice surfaces, while not limiting the invention in terms of applications and molding materials; in accordance with the functionality of connecting nodes according to Hooke's Law, the hoof-shaped frame formed by the anti-skid structure and steel spikes imitates the hoof of an animal to realize the anti-skid function; and the wrapped and combined outsole enhances the anti-slip effect and promotes walking comfort.

Description of drawings

In order to most clearly explain the technical solutions in the embodiments of the present invention, the following are detailed drawings illustrating other features, objects and advantages of the present invention:

In FIG. 1 is a block diagram of the present invention, an anti-slip sole with steel studs for outdoor use and on icy surfaces.

In FIG. 2 is a detailed structural diagram of the inverted surface of the present invention, an anti-slip outsole with steel studs for use on outdoor and icy surfaces.

Fig. 3 is a composite structural diagram of a hoof cleat frame and heel cleat frame in working order of the present invention.

Fig. 4 is a detailed stereoscopic structural diagram of the spiked hoof frame and spiked heel frame of the present invention.

Fig. 5 is a side sectional block diagram of a spiked hoof frame and spiked heel frame in operation of the present invention.

Fig. 6 is a composite block diagram of the one-piece composite sole of the present invention.

Fig. 7 is a detailed stereoscopic block diagram of the one-piece composite sole of the present invention.

Fig. 8 is a detailed structural side view of the one-piece composite sole of the present invention.

Legend on the drawings: hoof-shaped frame with spikes - 1; concave-convex toothed sole - 2; heel frame with spikes - 3; one-piece composite sole - 4; hexagonal boss - 11; ledge - 12; short conical spike - 13; hoof-shaped frame - 14; heel arched frame - 31; protrusion of the rear part of the arcuate frame - 32; lateral side of the sole - 41; upper hoof-shaped compressible bridge - 42; lower hoof-shaped jumper with spikes - 43; composite insole - 44; bridge of the insole for the arch of the foot - 45; upper arcuate compressible jumper - 46; lower arcuate bridge with spikes - 47; end block of a hexagonal boss - 111; convex cap of a hexagonal boss - 112.

Detailed description of options

To facilitate understanding of the technical means, features of creation, objects and effects of the present invention, it is described below in accordance with specific embodiments.

Embodiment 1:

The embodiment described herein with reference to FIG. 1-8 relates to an anti-slip outsole with steel studs for outdoor and icy use, consisting of a studded hoof frame 1, a concave-convex serrated outsole 2, a studded heel frame 3, and an integral composite sole 4; a hoof-shaped frame with spikes 1 and a heel frame with spikes 3 are inserted into a concave-convex toothed sole 2 and a solid composite sole 4 and are in the same vertical plane; the concave-convex toothed sole 2 is mounted on the front side of the solid composite sole 4 and is in the same vertical plane; heel frame with spikes 3 is installed in the lower part of the front side of the integral composite sole 4; a hoof-shaped frame with spikes 1 is installed in the upper part of the front side of the integral composite sole 4 and is located in the same vertical plane; the heel frame with spikes 3 is mechanically connected to the solid composite sole 4 by a hinge joint; a hoof-shaped frame with spikes 1 is mechanically connected to a solid composite sole 4 by a hinge joint; hoof-shaped frame with spikes 1 is equipped with hexagonal bosses 11, ledge 12, short conical spikes 13, hoof-shaped frame 14; the number of hexagonal lugs 11 is four, two of the four hexagonal lugs are nested in the left and right lower corners on the inner side of the hoof-shaped frame 14, respectively, and the other two are nested in the left and right upper corners on the inner side of the heel frame with spikes 3; the ledge 12 is made on the back side of the upper part of the hoof-shaped frame 14 perpendicular to it; two or more short conical spikes 13 are provided and inserted on the front side of the hoof frame 14 and the spiked heel frame 3, respectively; and the hoof-shaped frame 14 is inserted into the concave-convex toothed sole 2 and the integral composite sole 4 and is located in the same vertical plane; The hoof-shaped frame 14 is a composite frame structure of the sole, in which the left wide arched hoof-shaped frame is superimposed on the right narrow arched hoof-shaped frame, which successfully imitates animal hooves and achieves the operational effect of slip resistance and timely stop, allowing the spikes to be placed on the frame and fixed.

According to FIG. 3-5, the hexagonal boss 11 is composed of a hexagonal boss end block 111 and a convex cap of the hexagonal boss 112; the end block 111 of the hexagonal boss is installed on the front side of the boss for the convex cap of the boss 112; and the end block 111 of the hexagonal boss and the convex cap of the hexagonal boss are integrally connected and perpendicular to each other; the hexagonal boss end block 111 is a composite structure of the hinge shaft end block, consisting of a hexagonal short columnar block with a horizontal through-thread groove, which facilitates the insertion and bending of the hexagonal assemblies, improves the connection efficiency, as well as the strength of the final rotary positions of the swivel joint of the press-fitted frame; the convex cap of the hex boss 112 is a composite convex connector structure with an elongated landing end and an insertable hemispherical boss; each of the protrusions 12 and 32 of the arcuate surface on the top of the frame and the bottom of the frame, respectively, is a composite convex connecting structure with a short columnar landing end and an insertable hemispherical boss; heel frame with spikes 3 consists of an arcuate frame 31 and the protrusion of the rear part of the arcuate frame 32; the protrusion of the rear part of the frame 32 is installed on the rear side of the lower part of the heel arch frame 31; and the protrusion of the back of the arcuate frame 32 and the heel arcuate frame 31 are integrally connected and perpendicular to each other; the heel arch frame 31 is a composite arc strut structure formed with a 90 degree left-facing C-shaped bead and a built-in horizontal separation bar, which facilitates the molding of the arcuate bend and reinforcing bar of the heel strut structure, and improves the performance of the combined triangular multi-surface frame that can withstand shear stress, in which all spikes are fixed at five points in a fixed manner; the convex cap of the hexagonal boss 112, the protrusion 12 and the protrusion of the back of the arcuate frame 32 contain grooves that are convenient for pressing and fixing the sole frame with spikes; and the hinge shaft rod passes through the end block of the hexagonal boss 111 to form a pivoting linkage effect for bending the frame end shaft.

Working process: the sole is made by opening the mold and extracting various sole materials from the mold; mold opening and colloidal demoulding are carried out for the spiked hoof frame 1 and spiked heel frame 3 in advance to form anti-skid sole components; the hexagonal bosses 11 form the upper and lower pivot shafts for the hoof frame 14 and the heel arch frame 31; then, the hoof frame and the heel arch frame are fixed and rotated by the end blocks of the hexagonal lugs 111, and bonded to the sole by the convex heads of the hexagonal lugs 112, thereby forming a composite frame; also, thanks to the protrusion 12 and the protrusion of the rear part of the arcuate frame 32, an auxiliary rotary frame with spikes is formed to secure the pressing; the short conical spikes 13 are adaptively inserted into the front side of the hoof frame 14 and the heel arc spike frame 31, thereby effectively maintaining the protective effect since the steel spikes grip the ground; and various molded grains of the concave-convex serrated outsole 2 is adaptive to the wrapping and overlay effect of the frame of the one-piece composite sole 4, which has an effective slip resistance of the combination of the molded sole, as well as the fixed frame of the anti-slip sole with steel spikes for outdoor use and on icy surfaces, in which can be produced using various materials, which enhances its applicability and contributes to the flexible extension and return effect of the spikes of the steel frame of the composite sole.

Embodiment 2:

The embodiment described herein with reference to FIG. 1-8 refers to an anti-slip sole with steel studs for outdoor use and on icy surfaces. The present embodiment differs from Embodiment 1 in the following:

According to FIG. 6-8, the one-piece composite sole 4 consists of the lateral sides of the sole 41, the upper hoof compressible bar 42, the lower hoof bar with studs 43, the composite insole 44, the bridge of the insole for the arch of the foot 45, the upper arcuate compressible bar 46 and the lower arcuate bar with studs. 47; two side sides of the sole 41 are provided and attached to the left side and right side of the composite insole 44, respectively; the upper hoof-shaped compressible bridge 42 and the lower hoof-shaped jumper with spikes 43 are connected and located in the same vertical plane; an upper hoof-shaped compressible bridge 42 and a lower hoof-shaped bridge with spikes 43 are attached to the upper part of the front end surface of the composite insole 44; the upper arcuate compressible bridge 46 and the lower arcuate bridge with spikes 47 are connected; the upper arcuate compressible bridge 46 and the lower arcuate spiked bridge 47 are attached to the lower part of the front end surface of the composite insole 44 and are located in the same vertical plane; the bridge of the insole for the arch of the foot 45 is installed on the back side of the middle part of the composite insole 44 and is located on the same arcuate surface; Arch Bridge 45 is a composite insole structure with a soft convex arch rubber pad located between the upper convex arch frame and the lower convex arch frame, which facilitates the application of the sole and protects the arch of the foot, thereby increasing comfort and shock-absorbing effect; a composite frame frame on the sole and heel serves to protect, press in, guide and accommodate the studs and consists of an upper hoof-shaped compressible bridge 42, a lower hoof-shaped bridge with studs 43, an upper arcuate compressible bridge 46, a lower arcuate bridge with studs 47, which contributes to the smoothness of the sole and the possibility of the appearance of spikes from the grooves of the frame frame.

During the sole prefabrication process, the concave-convex serrated sole 2 is placed and surrounded by the sides of the sole 41 and the composite insole 44 of the solid composite sole 4; the upper hoof-shaped compressible bridge 42 and the lower hoof-shaped bridge with spikes 43 are connected to the upper arcuate compressible bridge 46 and the lower arcuate bridge with spikes through the bridge of the insole 45, forming a composite frame; The cleat frame is housed in a built-in groove in the outsole for easy cleat extension and return, as well as proper turn rate and sole smoothness.

According to the present invention, through the use of various constituent elements, the concave-convex serrated sole 2 is connected to the solid composite sole 4, thanks to the spiked hoof frame 1 and the spiked heel frame 3, the manufacture of the sole of the present invention is possible by opening the mold and removing from molds of various sole materials with hardness and elasticity; short conical studs 13 are inserted into the concave-convex serrated sole 2 and solid composite sole 4, to form a molded molded sole with various rough surfaces, suitable for uneven ground and smooth slopes, to achieve the effect of flexible extension and return of the studs, thereby improving slip resistance anti-slip soles with steel spikes on the street and icy surfaces, while not limiting the invention in terms of applications and molding materials; in accordance with the functionality of connecting nodes according to Hooke's Law, the hoof-shaped frame 14, formed by the anti-skid structure and steel spikes, imitates the hoof of an animal to realize the anti-skid function; and the wrapped and combined outsole enhances the anti-slip effect and promotes walking comfort.

Therefore, the present invention solves the problems of the prior art that carbide studs on the sole of shoes cause walking discomfort because they are embedded in the sole and can pick up clods of clay, weeds and small stones when used on snowy and mountainous terrain. terrain, muddy ground, ravine and grassy areas of playgrounds, etc., which affects the walking stability and wear of the connecting roots of the steel spikes; dirt dried on steel spikes is difficult to remove; furthermore, the steel spikes are arranged randomly on the sole of the shoe/cleat, which creates more inertia when falling as a result of wearing shoes/cleats with steel spikes on a slippery surface; steel spikes cause discomfort to the foot, can cause ankle dislocation, they also affect the adaptability of the foot to various irregularities of the sole, since the convenience of pressing in the plantar nails of the sole depends on the thickness of the one-piece composite sole and the high wear of the top of the inside of the sole.

The specific embodiments described herein are merely illustrative of the present invention. Various modifications, additions, or substitutions may be made by those skilled in the art, similar to the specific embodiments described herein, without departing from the scope of the present invention and without going beyond the scope defined by the claims.

Claims (11)

1. An anti-slip outsole with steel studs for outdoor and icy use, consisting of a studded hoof frame (1), a concave-convex serrated outsole (2), a studded heel frame (3) and a one-piece composite sole (4), where the hoof-shaped frame with spikes (1) and the heel frame with spikes (3) are inserted into a concave-convex toothed sole (2) and a one-piece composite sole (4); a concave-convex toothed outsole (2) is installed in the front part of the one-piece composite sole (4); heel frame with spikes (3) is installed in the lower part of the front side of the one-piece composite sole (4); a hoof-shaped frame with spikes (1) is installed in the upper part of the front side of a one-piece composite sole (4); heel frame with spikes (3) is mechanically connected to a one-piece composite sole (4) by a swivel joint; a hoof-shaped frame with spikes (1) is mechanically connected to a one-piece composite sole (4) by a swivel joint; a hoof-shaped frame with spikes (1) is provided with hexagonal bosses (11), a ledge (12), short conical spikes (13) and a hoof-shaped frame (14); the number of hexagonal lugs (11) is four, two of the four hexagonal lugs are made in the left and right lower corners on the inner side of the hoof-shaped frame (14), respectively, and the other two are made in the left and right upper corners on the inner side of the heel frame with spikes (3 ); the protrusion (12) is made on the back side of the upper part of the hoof-shaped frame (14); two or more short conical spikes (13) are inserted on the front side of the hoof frame (14) and heel frame (3) respectively; and the hoof-shaped frame (14) is inserted into a concave-convex toothed sole (2) and a one-piece composite sole (4). 2. Anti-slip sole with steel spikes for use on the street and on ice surfaces according to claim 1, characterized in that the hexagonal boss (11) consists of the end block (111) of the hexagonal boss and the convex cap of the boss (112); the end block (111) of the hexagonal boss is installed on the front side of the boss for the convex cap of the boss (112); and the end block (111) of the hexagonal boss and the convex cap of the hexagonal boss (112) are integrally connected. 3. Anti-slip sole with steel spikes for use on the street and on ice surfaces according to claim 1, characterized in that the heel frame with spikes (3) consists of an arcuate frame (31) and a protrusion of the rear part of the arcuate frame (32); the protrusion of the rear part of the frame (32) is installed on the back side of the lower part of the arched heel frame (31); and the protrusion of the rear part of the arc frame (32) and the arc-shaped heel frame (31) are connected in one piece. 4. Anti-slip sole with steel spikes for use on the street and on ice surfaces according to claim 1, characterized in that the one-piece composite sole (4) consists of the sides of the sole (41), the upper hoof-shaped compressible bridge (42), the lower hoof-shaped bridge spiked (43), composite insole (44), arch bridge (45), upper arcuate compressible bridge (46), and lower arcuate spiked bridge (47); two lateral sides of the sole (41) are provided and attached to the left side and right side of the composite insole (44), respectively; the upper hoof-shaped compressible bridge (42) and the lower hoof-shaped bridge with spikes (43) are connected; the upper hoof-shaped compressible bridge (42) and the lower hoof-shaped bridge with spikes (43) are attached to the upper part of the front end surface of the composite insole (44); the upper arcuate bridge (46) and the lower arcuate bridge with spikes (47) are connected; the upper arcuate bridge (46) and the lower arcuate bridge with spikes (47) are attached to the lower part of the front end surface of the composite insole (44); and the bridge of the arch insole (45) is mounted on the rear side of the middle portion of the composite insole (44). 5. Anti-slip outsole with steel spikes for outdoor use and on icy surfaces according to claim 1, characterized in that the hoof-shaped frame (14) is a composite frame construction of the sole, in which the left wide arched hoof-shaped frame is superimposed on the right narrow arched hoof-shaped frame . 6. Anti-slip sole with steel spikes for use on outdoor and icy surfaces according to claim 2, characterized in that the end block (111) of the hexagonal boss is a composite structure of the end block of the articulated shaft, consisting of a hexagonal short columnar block with a horizontal through groove threaded. 7. Anti-slip sole with steel spikes for outdoor use and on icy surfaces in accordance with any one of paragraphs. 1-3, characterized in that the convex cap of the hexagonal boss (112) is a composite convex connecting structure with an elongated landing end and an inserted hemispherical boss; and each of the protrusions (12) and (32) of the arcuate surface on the top of the frame and the bottom of the frame, respectively, is a composite convex connecting structure with a short columnar landing end and an insertable hemispherical boss. 8. Anti-slip outsole with steel spikes for use on outdoor and icy surfaces according to claim 3, characterized in that the heel arch frame (31) is a composite arch rack structure formed with a 90 degree left-facing C-shaped ledge and an integrated horizontal dividing rod. 9. Anti-slip outsole with steel spikes for outdoor use and on icy surfaces according to claim 4, characterized in that the bridge of the insole for the arch of the foot (45) is a composite structure of the insole with a soft convex rubber pad located between the upper convex arcuate frame and lower convex arched frame.

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