EMBODIED SYSTEMATIC INFRASTRUCTURE BRACKET SHOES

Abstract

The present invention relates to a shoe having a set of genuine leather vamp with a piece of vigorous material leather insole connected to an underside thereof and an embodied systematic infrastructure bracket indistinctly, with its whole bracket shape in normal/partially-thinned piece or sectional bracket shape in dual pieces buried over the inside of a shoe's outsole made of thermo-plastic rubber (TPR) or other materials; and the bracket the subject matter utility of the claimed invention is designed and made with its peripheral shape complying with outsole's configuration, and itself or its inward arrangements may be produced as to the different beams that such as the globular, vertical, horizontal and oblique beams, and as to the varied hollowed apertures, and as to the varied shaped grips, demonstrating the equilibrium, stability and security of whole bracket itself. Moreover, each bracket, in compliance of its prior experiment results, was respectively made in accordance with its dimensional model and/or stuff employed for the best physical flexibility performance when it buried over the inside of a shoe's outsole.

Description

BACKGROUND OF THE INVENTION

The present invention relates to a shoe having a set of genuine leather vamp with a piece of vigorous material insole connected to an underside thereof and an embodied systematic infrastructure bracket indistinctly, with its whole bracket shape in normal/partially-thinned piece or sectional bracket shape in dual pieces buried over the inside of a shoe's outsole made of thermo-plastic rubber (TPR) or other materials. The bracket the subject matter utility of the claimed invention is designed and made with its peripheral shapes complying with outsole's configuration, and itself or its inward arrangements may be produced as to the different beams that such as the globular, vertical, horizontal and oblique beams, and as to the varied hollowed apertures, and as to the varied shaped grips, demonstrating the equilibrium, stability and security of whole bracket itself. Moreover, each bracket, in compliance of its prior experiment results, was respectively made in accordance with its dimensional model and/or stuff employed for the best physical flexibility performance when it buried over the inside of a shoe's outsole. The bracket itself described as the whole bracket shape in normal/partially-thinned piece or sectional bracket shape in dual pieces shall all be identical to, or be included in an expressive diction of an embodied systematic infrastructure bracket.

Since the bracket the subject matter utility of the claimed invention to which is qualified in many experimental shapes, and is systematically designed and physical-mechanically formed by numerous available stuffs through steel or other metallic molds, so the bracket the subject matter utility of the claimed invention is able to strongly, firmly and steadily to support, fix and grab the household floors and suburban ecological-leisure walking floors; or the soil, mud, sand, pebble, moss, rock-face, rock-pool, snowdrift and snowfield etc. of the earth at the indoor or in the outdoor activities of shoe-wearing consumers.

Because nowadays, the natural and environmental outdoor activities are very prevailing and popular with the social people globally, therefore shoes made by the bracket the subject matter utility of the claimed invention shall be proper, applicable and competent to the utility practices in U.S. patent Classification Definitions and PCT Internationals.

Reports extracted from certain Japanese major newspaper that, while roof snow-eradicating or street snow-eradicating in snowy season in North-eastern Japan, at least 76 people died and several hundreds people injured due to slipping into street's ditches or falling from the roofs, these situations are same to those make movements over or within the household floors and suburban ecological-leisure walking floors; or the soil, mud, sand, pebble, moss, rock-face, rock-pool, snowdrift and snowfield etc. of the earth. In spite of aforementioned people the victims may be equipped with nailed and pillared shoes or wore shoes with supports, studs, and cleats for snow eradicating, however in fact, so far up to the existing markets, no any complete or systematic outsole's infrastructure equipment shoe was ever made; and most of shoes equipped with nails, supports, studs, cleats and/or pillars in existing markets are subject to simple, irregular, weak-kneed and even destructive designs and incomplete built-in. These several small metal or plastic objects that are fixed to the bottom part of a shoe may in collapsing, torn off, snapped or broken out after routine or periodic usage. These negative factors might incur danger and injury to those who wear or use such shoes. That's why this complete and systematic bracket the subject matter utility of the claimed invention is developed and manufactured accordingly.

BRIEF SUMMARY OF THE INVENTION

The present invention relates to a shoe having a set of genuine leather vamp with a piece of vigorous material insole connected to an underside thereof and an embodied systematic infrastructure bracket indistinctly, with its whole bracket shape in normal/partially-thinned piece or sectional bracket shape in dual pieces buried over the inside of a shoe's outsole made of thermo-plastic rubber (TPR) or other materials. The bracket the subject matter utility of the claimed invention is designed and made with its peripheral shapes complying with outsole's configuration, and itself or its inward arrangements may be produced as to the different beams that such as the globular, vertical, horizontal and oblique beams, and as to the varied hollowed apertures, and as to the varied shaped grips, demonstrating the equilibrium, stability and security of whole bracket itself. Moreover, each bracket, in compliance of its prior experiment results, was respectively made in accordance with its dimensional model and/or stuff employed for the best physical flexibility performance when it buried over the inside of a shoe's outsole. After experimental measurement and estimation, various shapes of brackets and numerous bracket stuffs were developed and employed in this invention. Material such as thermo-plastic rubber (TPR) or other materials for an outsole encloses the bracket the subject matter utility of the claimed invention were filled in the gaps and the hollowed apertures of said shaped bracket. The bracket itself described as the whole bracket shape in normal/partially-thinned piece or sectional bracket shape in dual pieces shall all identical to, or be included in an expressive diction of an embodied systematic infrastructure bracket.

The advantages of the invention are as that of an embodied systematic infrastructure bracket is devoted for the security as it is strongly, firmly and steadily to support, fix and grab the shoe-wearing consumers from slipping, turning and falling in their movements of indoor or outdoor activities and/or an embodied systematic infrastructure bracket is useful and economically in the protection of a shoe's outsole made of thermo-plastic rubber (TPR) or other materials from worn out.

In spite of many similar nails, supports, studs, cheats and/or pillars used as embodied infrastructures found in existing markets, but most of them are designed or schemed as to simple, irregular, weak-kneed and even destructive ones. These may incur danger or injury for the shoe-wearing consumers.

To state the objects of the invention, due to said embodied systematic infrastructure bracket is designed or laid to strongly, firmly and steadily support, fix and grab the shoe-wearing consumers from slipping, turning and falling in their movements over or within the different factors of the earth and in the protection of outsole made of thermo-plastic rubber (TPR) or other materials from worn out, therefore both the security and economy shall be the objects of the invention therein.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING

FIG. 1A shows an embodied systematic infrastructure bracket 4 in normal piece is made as elliptical (looped) periphery shape and itself or its inward arrangements may be produced as to the different beams 40 that such as the globular, vertical, horizontal and oblique beams 41, 42, 43, 44, and/or as to the varied hollowed apertures 45 and/or as to the varied shaped grips 46, one of claimed stuffs is employed in the manufacture of this bracket 4. FIG. 1B shows the constructional expressions of the opposite back of the aforementioned bracket 4 in normal piece. This figure clearly showing that the continuous protruded grips 46 were designed and processed in compliance with its professional usages.

FIG. 2A shows an embodied systematic infrastructure bracket 4 in normal piece is made as elliptical (looped) periphery shape complying with its outsole's configuration, and itself or its inward arrangements may be produced as to the different beams 40 that such as the globular, vertical, horizontal and oblique beams 41, 42, 43, 44, and/or as to the varied hollowed apertures 45 and/or as to the varied shaped grips 46, one of claimed stuffs is employed in the manufacture of this bracket 4. FIG. 2B shows the constructional expressions of the opposite back of the aforementioned bracket 4 in normal piece. This figure clearly showing that the continuous protruded grips 46 were designed and processed in compliance with its professional usages.

FIG. 3 shows an embodied systematic infrastructure bracket 4 in normal piece is made as circular periphery or other periphery shapes complying with its outsole's configuration, and itself or its inward arrangements may be produced as to the different beams 40 that such as the globular, vertical, horizontal and oblique beams 41, 42, 43, 44, and/or as to the varied hollowed apertures 45 and/or as to the varied shaped grips 46. This figure also showing that the bracket 4 including its opposite back, in whole may alternatively made from the stuffs of pig iron 81, cast/wrought/corrugated iron 82, brass/copper alloy 83, zinc alloy 84, lead alloy 85, aluminum alloy 86, other metal compounds 87, rubber 88, plastic 89, metallic plastic (POM) and other plastic-rubber compounds 811 claimed. So as that one of claimed stuffs is employed in the manufacture of this bracket 4.

FIG. 4 shows an embodied systematic infrastructure bracket 4 in normal piece is made as square periphery or other periphery shapes complying with its outsole's configuration, and itself or its inward arrangements may be produced as to the different beams 40 that such as the globular, vertical, horizontal and oblique beams 41, 42, 43, 44, and/or as to the varied hollowed apertures 45 and/or as to the varied shaped grips 46. This figure also showing that the bracket 4 including its opposite back, in whole may alternatively made from the stuffs of pig iron 81, cast/wrought/corrugated iron 82, brass/copper alloy 83, zinc alloy 84, lead alloy 85, aluminum alloy 86, other metal compounds 87, rubber 88, plastic 89, metallic plastic (POM) and other plastic-rubber compounds 811 claimed. So as that one of claimed stuffs is employed in the manufacture of this bracket 4.

FIG. 5 shows an embodied systematic infrastructure bracket 4 in normal piece is made as rectangular periphery or other periphery shapes complying with its outsole's configuration, and itself or its inward arrangements may be produced as to the different beams 40 that such as the globular, vertical, horizontal and oblique beams 41, 42, 43, 44, and/or as to the varied hollowed apertures 45 and/or as to the varied shaped grips 46. This figure also showing that the bracket 4 including its opposite back, in whole may alternatively made from the stuffs of pig iron 81, cast/wrought/corrugated iron 82, brass/copper alloy 83, zinc alloy 84, lead alloy 85, aluminum alloy 86, other metal compounds 87, rubber 88, plastic 89, metallic plastic (POM) and other plastic-rubber compounds 811 claimed. So as that one of claimed stuffs is employed in the manufacture of this bracket 4.

FIG. 6 shows an embodied systematic infrastructure bracket 4 in normal piece is made as triangular periphery or other periphery shapes complying with its outsole's configuration, and itself or its inward arrangements may be produced as to the different beams 40 that such as the globular, vertical, horizontal and oblique beams 41, 42, 43, 44, and/or as to the varied hollowed apertures 45 and/or as to the varied shaped grips 46. This figure also showing that the bracket 4 including its opposite back, in whole may alternatively made from the stuffs of pig iron 81, cast/wrought/corrugated iron 82, brass/copper alloy 83, zinc alloy 84, lead alloy 85, aluminum alloy 86, other metal compounds 87, rubber 88, plastic 89, metallic plastic (POM) and other plastic-rubber compounds 811 claimed. So as that one of claimed stuffs is employed in the manufacture of this bracket 4.

FIG. 7 shows an embodied systematic infrastructure bracket 4 in normal piece is made as rhombic periphery or other periphery shapes complying with its outsole's configuration, and itself or its inward arrangements may be produced as to the different beams 40 that such as the globular, vertical, horizontal and oblique beams 41, 42, 43, 44, and/or as to the varied hollowed apertures 45 and/or as to the varied shaped grips 46. This figure also showing that the bracket 4 including its opposite back, in whole may alternatively made from the stuffs of pig iron 81, cast/wrought/corrugated iron 82, brass/copper alloy 83, zinc alloy 84, lead alloy 85, aluminum alloy 86, other metal compounds 87, rubber 88, plastic 89, metallic plastic (POM) and other plastic-rubber compounds 811 claimed. So as that one of claimed stuffs is employed in the manufacture of this bracket 4.

FIG. 8 shows an embodied systematic infrastructure bracket 4 in normal piece is made as multilateral periphery or other periphery shapes complying with its outsole's configuration, and itself or its inward arrangements may be produced as to the different beams 40 that such as the globular, vertical, horizontal and oblique beams 41, 42, 43, 44, and/or as to the varied hollowed apertures 45 and/or as to the varied shaped grips 46. This figure also showing that the bracket 4 including its opposite back, in whole may alternatively made from the stuffs of pig iron 81, cast/wrought/corrugated iron 82, brass/copper alloy 83, zinc alloy 84, lead alloy 85, aluminum alloy 86, other metal compounds 87, rubber 88, plastic 89, metallic plastic (POM) and other plastic-rubber compounds 811 claimed. So as that one of claimed stuffs is employed in the manufacture of this bracket 4.

FIG. 9 shows an embodied systematic infrastructure bracket 4 in normal piece is made as irregular periphery or other periphery shapes complying with its outsole's configuration, and itself or its inward arrangements may be produced as to the different beams 40 that such as the globular, vertical, horizontal and oblique beams 41, 42, 43, 44, and/or as to the varied hollowed apertures 45 and/or as to the varied shaped grips 46. This figure also showing that the bracket 4 including its opposite back, in whole may alternatively made from the stuffs of pig iron 81, cast/wrought/corrugated iron 82, brass/copper alloy 83, zinc alloy 84, lead alloy 85, aluminum alloy 86, other metal compounds 87, rubber 88, plastic 89, metallic plastic (POM) and other plastic-rubber compounds 811 claimed. So as that one of claimed stuffs is employed in the manufacture of this bracket 4.

FIG. 10A shows an illustrative example that an embodied systematic infrastructure bracket 4 in partially-thinned piece is made as one of claimed periphery shapes complying with its outsole's configuration, and itself or its inward arrangements may be produced as to the different beams 40 that such as the globular, vertical, horizontal and oblique beams 41, 42, 43, 44 and/or as to the varied hollowed apertures 45 and/or as to the varied shaped grips 46, one of claimed stuffs is employed in the manufacture of this bracket 4. FIG. 10B shows an illustrative example indicating aforementioned bracket 4 may also have an optional design or process, for example without the continuous protruded grips 46 in its partially-thinned parts of this bracket 4.

FIG. 11A shows an illustrative example that an embodied systematic infrastructure bracket 4 in partially-thinned piece is made as one of claimed periphery shapes complying with its outsole's configuration, and itself or its inward arrangements may be produced as to the different beams 40 that such as the globular, vertical, horizontal and oblique beams 41, 42, 43, 44 and/or as to the varied hollowed apertures 45 and/or as to the varied shaped grips 46, one of claimed stuffs is employed in the manufacture of this bracket 4. FIG. 11B shows an illustrative example indicating aforementioned bracket 4 may also have an optional design or process, for example without the continuous protruded grips 46 in its partially-thinned parts of this bracket 4.

FIG. 12A shows an illustrative example that an embodied systematic infrastructure bracket 4 in partially-thinned piece is made as one of claimed periphery shapes complying with its outsole's configuration, and itself or its inward arrangements may be produced as to the different beams 40 that such as the globular, vertical, horizontal and oblique beams 41, 42, 43, 44 and/or as to the varied hollowed apertures 45 and/or as to the varied shaped grips 46, one of claimed stuffs is employed in the manufacture of this bracket 4. FIG. 12B shows an illustrative example indicating aforementioned bracket 4 may also have an optional design or process, for example without the continuous protruded grips 46 in its partially-thinned parts of this bracket 4.

FIG. 13A shows an illustrative example that an embodied systematic infrastructure bracket's sectional bracket shape in dual pieces is made as one of claimed periphery shapes complying with its outsole's configuration, and itself or its inward arrangements may be produced as to the different beams 40 that such as the globular, vertical, horizontal and oblique beams 41, 42, 43, 44 and/or as to the varied hollowed apertures 45 and/or as to the varied shaped grips 46, one of claimed stuffs is employed in the manufacture of this bracket 4. FIG. 13B shows an illustrative example indicating aforementioned bracket 4 may also have an optional design or process, for example without the links between the bracket's dual pieces of this bracket 4.

FIG. 14A shows an illustrative example that an embodied systematic infrastructure bracket's sectional bracket shape in dual pieces is made as one of claimed periphery shapes complying with its outsole's configuration, and itself or its inward arrangements may be produced as to the different beams 40 that such as the globular, vertical, horizontal and oblique beams 41, 42, 43, 44 and/or as to the varied hollowed apertures 45 and/or as to the varied shaped grips 46, one of claimed stuffs is employed in the manufacture of this bracket 4. FIG. 14B shows an illustrative example indicating aforementioned bracket 4 may also have an optional design or process, for example without the links between the bracket's dual pieces of this bracket 4.

FIG. 15A is an overview showing the whole set of automatic rotary injection machine which mainly including the mechanical and electronic members of basic rotary table, pump-action oil tank, material injection tubular-gun deck and schedulable/programmable software device. The major purpose of the machine is to attach and/or unify the colorful, artistically designed shoe outsole to a genuine leather vamp with a piece of vigorous material insole. The mechanical mold toolkit containing the maternal mold, side ring molds, separate color mold and last mold were assembled in one station mechanism and equipped upon the table and performing the engineering functions through the electronic directions of schedulable/programmable software device. Pump-action oil tank is an equipment schemed to push forward or to pull backward the molds or tubular-gun through its liquid pressures. Additionally, the material injection tubular-gun deck is an equipment schemed to inject many kinds of materials used for outsole more optional and expectable. Therefore, the quick and massive production of shoes through this automatic rotary injection machine set is possible. Besides, in compliance with the productive or artistic requests, the station number of basic rotary table and the number of material injection tubular-gun deck may increasable or exchangeable. FIG. 15B is an outlined view showing the automatic rotary injection machine set. In it, pump-action oil tank or schedulable/programmable software device may not visible.

FIG. 16A shows a last mold 64 wearing a genuine leather vamp 2 with a piece of vigorous material insole 3 and above it, a separate mold 63 both are in sequence, preparing to turn and descend for the filling, combination and/or integration of melting color materials 71,72,73 with the bracket's outsole 51.

FIG. 16B shows an embodied systematic infrastructure bracket 4 in normal piece, an embodied systematic infrastructure bracket 4 in partially-thinned piece and/or an embodied systematic infrastructure bracket's sectional bracket shape in dual pieces were easily and quickly situated upon respective maternal molds through their lathe-precast and guidable deployments by hand(s) or other mechanical means.

FIG. 17 shows an embodied systematic infrastructure bracket 4 whose hollowed apertures 45, gaps 48 and others were filled with melting basic color (also called as first color) material 71 injected, and it was hereupon in forming and then coolly formed in next processes. The continuous protruded grips 46 of bracket 4, excepting their upper surfaces, also covered with said color material 71 injected.

FIG. 18 shows, through an embodied systematic infrastructure bracket 4 upon its maternal mold was filled, combined and/or integrated with melting color materials 71, 72, 73 injected, a coolly formed bracket's outsole 51 is not just has an artistic pattern bottom of shoe's outsole 5 through the previously lathed maternal mold 61 designs, but it also has a compact immersed combination of bracket's outsole 51 with a genuine leather vamp 2 with a piece of vigorous material insole 3.

FIG. 19 shows an imaginable and illustrated example of buried bracket 4 in a shoe's outsole 5. This is a perspective layout diagram of an embodied systematic infrastructure bracket 4, which may varied or different in claimed bracket 4 shapes or material employed.

FIG. 20A is an overview through exploded partial diagrams showing that a shoe's outsole bottom reveals its upper surface 47 of continuous protruded grips 46 of an embodied systematic infrastructure bracket 4 is same height than to the top of neighboring basic color material 71 of shoe's outsole 5. Moreover, FIG. 20B is an overview through exploded partial diagrams showing that an outsole bottom reveals its upper surface 47 of continuous protruded grips 46 of an embodied systematic infrastructure bracket 4 is same height than to the top of neighboring auxiliary color material 72 of a shoe's outsole 5.

FIG. 21A shows an auxiliary color (also called as second color) material 72 of shoe's outsole 5 is injected into vacant space where the artistic pattern bottom of a shoe's outsole 5. FIG. 21B shows an auxiliary color material 72 of shoe's outsole 5 is injected into vacant space where the intermediate layer between bracket's outsole 51 and a piece of vigorous material insole 3. FIG. 21C shows an auxiliary color material 72 of shoe's outsole 5 is injected into vacant space where the upper side periphery of a shoe's outsole 5 surrounding the underside of a genuine leather vamp 2 with a piece of vigorous material insole 3. However, these color space deployments of auxiliary color material 72 may be alternatively substituted by basic color (also called as first color) material 71 or extra color (also called as third color) material 73 through the engineering rearrangements of mold toolkit, schedulable/programmable software device and the material injection tubular-gun deck.

FIG. 22A shows a complete shoe was finished through the efficiency of operational coordination between the mechanical mold toolkit containing the maternal mold, side ring molds, separate color mold, last mold and the whole set of automatic rotary injection machine. FIG. 22B shows a complete shoe is composed of a genuine leather vamp 2 with a piece of vigorous material insole 3, an intermediate layer between bracket's outsole 51 and a piece of vigorous material insole 3 and a bracket's outsole 51. Besides, the intermediate layer and the bracket's outsole 51 form a whole shoe's outsole 5. FIG. 22C shows an example of a complete and successful shoe 1 which featuring in two main parts as that of its genuine leather vamp 2 with a piece of vigorous material insole 3, and the excellent quality of artistic pattern outsole 5 of shoe 1 ornamented by the injected colorful materials 71, 72, 73.

DETAILED DESCRIPTION OF THE INVENTION

Referring to FIGS. 1 to 20, the shoe 1 of the present invention comprises a set of genuine leather vamp 2 which is composed of multiple leather parts stitched with each other and a piece of vigorous material insole 3 is connected to an underside of the genuine leather vamp 2. An embodied systematic infrastructure bracket 4 indistinctly, with its whole bracket shape in normal/partially-thinned piece or sectional bracket shape in dual pieces buried over the inside of a shoe's outsole 5 made of thermo-plastic rubber (TPR) or other materials.

An embodied systematic infrastructure bracket 4 which made with various stuffs 81, 82, 83, 84, 85, 86, 87, 88, 89, 810, 811, has itself or its inward arrangements may be produced as to the different beams 40 that such as the globular, vertical, horizontal and oblique beams 41, 42, 43, 44, and/or as to the varied hollowed apertures 45 and/or as to the varied shaped grips 46, demonstrating the equilibrium, stability and security of whole bracket. The continuous protruded grips 46 extruded from basic bracket were serially equipped in accordance the peripheral shape of bracket and its lateral sides of globular, vertical, horizontal and oblique beams, in order to strongly, firmly and steadily support, fix and grab the household floors and suburban ecological-leisure walking floors; or the soil, mud, sand, pebble, moss, rock-face, rock-pool, snowdrift and snowfield etc. of the earth at the indoor or in the outdoor movements of people from slipping, turning and falling, and/or in the protection of shoe's outsole 5 made of thermo-plastic rubber (TPR) or other materials from worn out. The continuous protruded grips 46 extruded from the buried basic bracket were indistinctly and commonly appeared upon the shoe's outsole 5 made of thermo-plastic rubber (TPR) or other materials. The upper surface 47 of continuous protruded grips 46 is same height than to the top of neighboring material of shoe's outsole 5 made of thermo-plastic rubber (TPR) or other materials.

There are four kinds of metallic molds 6 the maternal mold 61, side ring molds 62, separate color mold 63 and last mold 64 were installed as a mechanical toolkit of single station at an automatic rotary injection machine, and it's then utilized to produce a shoe equipped an embodied systematic infrastructure bracket 4 which indistinctly, with its whole bracket shape in normal/partially thinned piece or sectional bracket shape in dual pieces buried over the inside of a shoe's outsole 5 made of thermo-plastic rubber (TPR) or other materials.

Generally an automatic rotary injection machine, to which is a specific machine used for the manufacture of the shoes. The machine may has two material injection tubular-gun decks and different stations in design, for examples, they may a machine assembled with 18 stations (for 9 pairs of shoes), 16 stations (for 8 pairs of shoes), 14 stations (for 7 pairs of shoes) or others. Each station equipped by a mechanical toolkit including maternal mold 61, side ring molds 62, separate color mold 63 and last mold 64 for single shoe 1 production.

At the initial station, and after an embodied systematic infrastructure bracket 4 is easily and quickly situated upon the maternal mold 61 through the lathe-precast and guidable deployment thereof, then starting the automatic rotary injection machine just by one button touch. Since the machine is electronically controlled by a schedulable and programmable software device, so the forward and withdrawal or the injection of the material injection tubular-gun deck, the rise and descent of maternal mold 61, the open and close of side ring molds 62, the rise and descent or the rotation of separate color mold 63 and last mold 64 were precisely directed by the software device.

Through the movement of stations installed, because the machine is electronically controlled by a schedulable and programmable software device, so after an embodied systematic infrastructure bracket 4 is easily and quickly located upon the maternal mold 61, the side ring molds 62 simultaneously close, the separate color mold 63 descends, and the tubular-gun deck approaches, then the maternal mold 61 which loaded with the bracket 4 raises, the basic color (also called as first color) material 71 of shoe's outsole 5 at this moment is timely injected into the space closely enclosed by referred molds, and then an embodied systematic infrastructure bracket 4 whose hollowed apertures 45 and gaps 48 and others filled with melting basic color material 71 was hereupon in forming and then coolly formed in next processes. A coolly formed bracket's outsole 51 is not just has an artistic pattern bottom of shoe's outsole 5 through the previously lathed maternal mold 61 designs, but also has a compact immersed combination of bracket 4 and outsole's basic color material 71. To a coolly formed bracket's outsole 51, its upper surface 47 of continuous protruded grips 46 of bracket 4 is same height than to the top of neighboring material of shoe's outsole 5. Further, bracket's gaps 48 are configured by enclosed beams 41, 42, 43, 44 and hollowed apertures 45 which in varied forms are hollowed out from beams 41, 42, 43, 44; furthermore, a shoe's outsole 5 is made of thermo-plastic rubber (TPR) or other materials.

In the continue manufacture processes, when a coolly formed bracket's outsole 51 loaded upon the maternal mold 61 is rotating at the certain station, the side ring molds 62 is simultaneously close, the last mold 64 which wearing a set of genuine leather vamp 2 with a piece of vigorous material insole 3 connected to an underside thereof descends, and the tubular-gun deck approaches, then the maternal mold 61 which loaded the bracket's outsole 51 raises, the auxiliary color (also called as second color) material 72 of shoe's outsole 5 at this moment is timely injected into the space closely enclosed by referred molds, and then an embodied systematic infrastructure bracket's outsole 51 whose integration was completed and then even the whole single shoe 1 was finished by the filling or combination of melting auxiliary color material 72 injected to vacant spaces left for replenishment for examples, where the artistic pattern bottom of shoe's outsole 5, where the intermediate layer between bracket's outsole 51 and a piece of vigorous material insole 3 and/or where the upper side periphery of shoe's outsole 5 surrounding the underside of a genuine leather vamp 2 with a piece of vigorous material insole 3. So far, the embodied systematic infrastructure bracket's outsole 51 or even the whole single shoe 1 is hereupon in forming and then coolly formed and in completion eventually. For more innovative, the extra color (also called as third color) material 73 of shoe's outsole 5 may be employed through various designs in an automatic rotary injection machine with schedulable and programmable functions and in attachment molds thereof. Besides, a whole single shoe 1 may finished by stitching the bracket's outsole 51 to the lower parts of a genuine leather vamp 2 with a piece of vigorous material insole 3 connected to an underside thereof; or with injected adhesive material to combine the bracket's outsole 51 and the genuine leather vamp 2 with a piece of vigorous material insole 3 connected to an underside thereof together without stitching.

It is noted that, due to the simple and quick downloading of an embodied systematic infrastructure bracket 4 upon the maternal mold 61 would be properly done through the lathe-precast and guidable deployment of maternal mold 61 by hand(s) or other mechanical means, and in addition to the shoe's embodied systematic infrastructure bracket 4 which enclosed by a shoe's outsole 5 made of thermo-plastic rubber (TPR) or other materials is also firmly connected to the a set of genuine leather vamp 2 with a piece of vigorous material insole 3 connected to an underside thereof by automatic and direct operations of schedulable and/or programmable machinery running, so the time spent for making the shoes can be shortened and the shoes are very suitable to be made in mass production.

While we have shown and depicted the embodiment in accordance with the present invention, it should be clear to those skilled in the art that, further embodiments may be made without departing from the scope of this present invention.

Claims

1. A shoe comprising

a set of genuine leather vamp with a piece of vigorous material insole connected to an underside thereof, and

an embodied systematic infrastructure bracket indistinctly, with its whole bracket shape in normal/partially-thinned piece or with its sectional bracket shape in dual pieces buried over the inside of a shoe's outsole made of thermo-plastic rubber (TPR) or other materials; the bracket the subject matter utility of the claimed invention is designed and made with its peripheral shapes complying with its outsole's configuration, and itself or its inward arrangements produced as to the different beams that such as the globular, vertical, horizontal and oblique beams, and as to the varied hollowed apertures, and as to the varied shaped grips, demonstrating the equilibrium, stability and security of whole bracket itself. Moreover, each bracket, in compliance of its prior experiment results, was respectively made in accordance with its dimensional model and/or stuff employed for the best physical flexibility performance when it buried over the inside of a shoe's outsole. And many brackets were physical-mechanically formed in accordance with their designed shapes and numerous stuffs were employed in the manufacture of these brackets. The bracket itself described as the whole bracket shape in normal/partially-thinned piece or sectional bracket shape in dual pieces shall all identical to, or be included in an expressive diction of an embodied systematic infrastructure bracket, and

material such as thermo-plastic rubber (TPR) or other materials for an outsole encloses the bracket the subject matter utility of the claimed invention, were filled in the hollowed apertures and the gaps of said shaped bracket.

2. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention is designed and made with its elliptical (looped) periphery or other periphery shapes complying with outsole's configuration, and itself or its inward arrangements produced as to the different beams that such as the globular, vertical, horizontal and oblique beams, and as to the varied hollowed apertures, and as to the varied shaped grips, demonstrating the equilibrium, stability and security of whole bracket itself.

3. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention is designed and made with its circular periphery or other periphery shapes including semicircle and quadrant shapes complying with outsole's configuration, and itself or its inward arrangements produced as to the different beams that such as the globular, vertical, horizontal and oblique beams, and as to the varied hollowed apertures, and as to the varied shaped grips, demonstrating the equilibrium, stability and security of whole bracket itself.

4. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention is designed and made with its square periphery or other periphery shapes complying with outsole's configuration, and itself or its inward arrangements produced as to the different beams that such as the globular, vertical, horizontal and oblique beams, and as to the varied hollowed apertures, and as to the varied shaped grips, demonstrating the equilibrium, stability and security of whole bracket itself.

5. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention is designed and made with its rectangular periphery or other periphery shapes complying with outsole's configuration, and itself or its inward arrangements produced as to the different beams that such as the globular, vertical, horizontal and oblique beams, and as to the varied hollowed apertures, and as to the varied shaped grips, demonstrating the equilibrium, stability and security of whole bracket itself.

6. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention is designed and made with its triangular periphery or other periphery shapes including scalene, equilateral, isosceles and right-angled triangles shapes complying with outsole's configuration, and itself or its inward arrangements produced as to the different beams that such as the globular, vertical, horizontal and oblique beams, and as to the varied hollowed apertures, and as to the varied shaped grips, demonstrating the equilibrium, stability and security of whole bracket itself.

7. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention is designed and made with its rhombic periphery or other periphery shapes complying with outsole's configuration, and itself or its inward arrangements produced as to the different beams that such as the globular, vertical, horizontal and oblique beams, and as to the varied hollowed apertures, and as to the varied shaped grips, demonstrating the equilibrium, stability and security of whole bracket itself.

8. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention is designed and made with its multilateral periphery or other periphery shapes complying with outsole's configuration, and itself or its inward arrangements produced as to the different beams that such as the globular, vertical, horizontal and oblique beams, and as to the varied hollowed apertures, and as to the varied shaped grips, demonstrating the equilibrium, stability and security of whole bracket itself.

9. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention is designed and made with its irregular periphery or other periphery shapes complying with outsole's configuration, and itself or its inward arrangements produced as to the different beams that such as the globular, vertical, horizontal and oblique beams, and as to the varied hollowed apertures, and as to the varied shaped grips, demonstrating the equilibrium, stability and security of whole bracket itself.

10. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention was wholly made with stuff of pig iron or its alloy 81.

11. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention was wholly made with stuff of cast/wrought/corrugated iron or their alloys 82.

12. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention was wholly made with stuff of brass/copper or their alloys 83.

13. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention was wholly made with stuff of zinc or its alloy 84.

14. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention was wholly made with stuff of lead or its alloy 85.

15. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention was wholly made with stuff of aluminum or its alloy 86.

16. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention was wholly made with stuff of other metal compounds 87.

17. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention was wholly or partially made with stuff of rubber 88.

18. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention was wholly or partially made with stuff of plastic 89.

19. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention was wholly made with stuff of metallic plastic (POM) 810.

20. The shoe as claimed in claim 1, wherein the bracket the subject matter utility of the claimed invention was wholly made with stuff of other plastic-rubber compounds 811.