CN212636667U - One-piece formed plastic shell skating shoes - Google Patents

Abstract

The utility model discloses an integrative shaping plastic shell skating shoe contains skates shoes and roller skate, including shoes endotheca, plastic shoes shell, shoe rack subassembly fixed mounting in plastic shoes shell bottom, the shoes endotheca is once-through pressure molding in the inner tube cold pressing die utensil through preheating the back, the plastic shoes shell passes through the outside shaping of shoes shell mould at the shoes endotheca, makes plastic shoes shell and shoes endotheca integrated into one piece, and concrete manufacture process is: after the inner sleeve of the shoe is molded, the inner sleeve is sleeved on the inner core of the shoe shell mold; the plastic shoe shell is formed on the outer side of the shoe inner sleeve in one step by a mode of injecting the shoe shell mold in a mold, so that the inner layer surface of the plastic shoe shell is tightly combined with the outer layer surface of the shoe inner sleeve to be integrally formed. The utility model has the characteristics of portability, comfort, safety, environmental protection, firmness, durability and the like; the process greatly reduces the production cost, improves the quality and the efficiency, and is favorable for protecting the body and the environment of staff without using the traditional glue brushing method.

Description

One-piece formed plastic shell skating shoes

Technical Field

The utility model relates to a skates shoes and roller skate preparation technical field specifically, relate to an integrated into one piece plastic shell skates.

Background

Skates include skates and roller skates, which are shoes worn during skating or roller skating (roller skating). The prior art skates are those having a skate blade assembly or a pulley assembly mounted to the sole of the skate. It is a competition appliance for sports competition and is also a shoe appliance widely used for leisure sports.

The traditional manufacturing process of the ice skate and the roller skate is generally that only the plastic shell part is formed on a mould during injection molding, but the inner sleeve of the shoe cannot be formed. The inner sleeve part of the shoe is particularly complex in manufacturing process, and different cut pieces need to be cut, then the cut pieces are marked and covered with edges, and finally the cut pieces are spliced and sewn by sewing. Because the inside of the shoe is a curved surface, the sewing machine has higher operation difficulty, and the problems of needle skipping, uneven line distance, asymmetry of the inner side and the outer side and the like are easy to occur; in the process of turning the sealing sheet, the phenomena of connection dislocation and wrinkle are easy to occur. For the inner sleeve of the shoe in places with different thicknesses and hardness, the traditional method adopts a sheared paperboard as a positioning reference to remove a line, and then adopts a sewing paster and a glue brushing paster to realize the connection of the shell and the inner sleeve of the shoe. In the process of brushing glue in the forming process, the artificial glue is usually not aligned with the midline, the artificial glue is distorted, and the glue used for brushing the glue is harmful to the health of human bodies.

Therefore, the existing skating shoe manufacturing process has the defects of complicated steps, low quality efficiency, high manufacturing cost, difficulty in accurate connection, environmental pollution and inconvenience for the health and ecological environment protection of staff.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an integrative shaping plastic casing skating shoe to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides an integrated into one piece plastic shell skating shoe, includes shoes endotheca, plastic shoes shell, shoe rack subassembly fixed mounting in plastic shoes shell bottom, the shoes endotheca material once receives compression moulding in the endotheca mould, plastic shoes shell passes through shoes shell mould and once injection moulding in the outside of shoes endotheca, makes plastic shoes shell and shoes endotheca integrated into one piece, and concrete manufacture process is: after the inner sleeve of the shoe is molded, the inner sleeve is hung on the inner core of the shoe shell mold; the plastic shoe shell is formed on the outer side of the shoe inner sleeve in one step by a mode of injecting the shoe shell mold in a mold, so that the inner layer surface of the plastic shoe shell is tightly combined with the outer layer surface of the shoe inner sleeve to be integrally formed. Therefore, the plastic shoe shell is directly formed outside the shoe inner sleeve in the shoe shell mold, the plastic shoe shell and the shoe inner sleeve are connected and fixed more firmly, and the steps of overlapping of leather cloth and manual sewing glue brushing and glue pasting are omitted, so that the shoe is lighter in weight, more fits the instep, reduces the cost, and is energy-saving and environment-friendly.

According to different requirements of the plastic shell skating shoes on the inner sleeves of the shoes, the inner sleeves of the shoes are made of EVA or other high-temperature resistant elastic materials with two or more hardness, preferably, the inner sleeves of the shoes are made of cut piece composite materials, are pre-heated and then are pressed and molded in an inner sleeve cold pressing mold at one time to form the shape and the size of the inner sleeves of the shoes, and comprise an inner layer, an intermediate layer and an outer layer, wherein the intermediate layer is made of EVA or the same material with certain elasticity.

In order to ensure that the shoe inner sleeve is accurately positioned in the plastic shell in the mold-containing injection process, preferably, a positioning structure matched with an inner core of a shoe shell mold is arranged on the shoe inner sleeve, the positioning structure is a eyelet hole of the shoe inner sleeve, correspondingly, a small cylinder is arranged on the shoe shell mold, and the eyelet hole is sleeved on the small cylinder; the inner sleeve of the shoe is matched with the inner core of the shoe shell mold to form an inverted buckle from the convex-concave part covering the rear end of the heel part of the ankle foot to the convex-concave part covering the front end of the instep, and the inner sleeve of the shoe is hung by the inverted buckle and cannot move freely. The shoe inner sleeve has certain elasticity, the displacement can be effectively prevented through the matching design of the displacement-preventing eyelet hole and the shoe shell mold, and the shoe inner sleeve is clamped on the inner core of the shoe shell mold through the matched reverse buckle, so that the shoe inner sleeve is prevented from sliding out and loosening.

Because the physiological structure of the foot and the requirements of human body movement on the inner sleeve of the shoe are different, the requirements of the thickness and the flexibility of different parts of the shoe are different, the shoe edge of the inner sleeve of the shoe is not supported by a plastic shoe shell, preferably, the outer side of the shoe edge part of the inner sleeve of the shoe is made of a hard EVA material, and the outer side part of the shoe edge can also be made of a material with high hardness and similar to EVA; the inner foot-sticking part is made of soft EVA material, and the inner foot-sticking part is made of soft material similar to EVA, so that the effect that the shoe does not put on the foot is achieved. Because the ankle part is movable, the inner sleeve of the shoe at the position is thicker and softer, and the thickness of the inner sleeve of the shoe at other positions is corresponding to the different requirements of the foot on the shoe. Because the raw materials of the shoe inner sleeve are the same thickness before being pressed by the cold pressing die, the hardness of the shoe inner sleeve can be changed when the shoe inner sleeve is pressed to different thicknesses, and the shoe inner sleeve needs to be designed thinner at a place with better foot wrapping performance and at a thickness. The common shoe inner sleeves are manually overlapped and spliced and pasted, different requirements of different positions cannot be accurately achieved, the thickness and hardness are not designed according to the requirements of materials and the motion process, and the inner surfaces of the shoe inner sleeves are always provided with folds, so that the phenomenon that the overlapped surfaces are not smooth to support the feet is caused. The inner sleeve mold for manufacturing the inner sleeve of the shoe is manufactured by a 3D design process according to the requirements of different thicknesses and hardness of different parts in the shoe.

In order to improve the comfort of the shoe and ensure that the foot-leaning side is attached smoothly, preferably, the inner layer of the shoe inner sleeve is made of microfiber materials. The microfiber material has good wear-resisting and smooth functions, and is used for producing the effect that the foot is not stuck and is easy to put into shoes; when the foot sweats due to sports, the foot can not be adhered to the inner layer of the inner sleeve of the shoe.

In order to better fix the foot, preferably, the upper part of the inner shoe sleeve is provided with a fastening structure, and the fastening structure is a keyhole hole group provided with a shoelace or a fixedly installed magic tape kit. For better fixation, preferably, a zipper leather is further attached to the outer side of the plastic shoe shell at the position of the tongue opening.

In order to avoid the damage to the shoe cover surface due to overlarge stress during skating movement, prolong the service life of a product and improve the bonding performance of integrated forming, the bonding performance of PU or long fiber material and plastic material is good, preferably, the outer layer of the shoe inner sleeve comprises a fastening structure and a reinforcing structure respectively hot-pressed with the part connected with the plastic shoe shell. In order to increase the tensile strength, preferably, the reinforcing structure is PU or long fiber material arranged on the outer side of the shoe inner sleeve.

In order to realize the installation of the skates components and the roller carriage components with different styles at the bottom of the plastic shell integrally formed in the same size and the change of the installation positions and modes, the shoes can be assembled into the skates integrally formed or the roller skates integrally formed according to the difference of the shoe rack components, preferably, the shoe rack components are the roller carriages and the wheel sets arranged on the roller carriages or the skates components. Therefore, the skating shoes can meet different occasions of skating and roller skating according to requirements.

Generally, the insert refers to a structural member of a mold structure, and the base member refers to a structural member made of aluminum, iron, or the like, which is molded into a plastic shoe shell to connect a wheel carriage and an ice skate. In order to realize multiple styles of one mold, the skating shoes with the integrally formed plastic shells preferably further comprise a plurality of base pieces matched with the sole surfaces of the plastic shoe shells, correspondingly, the shoe shell molds are provided with a plurality of detachable mold inserts matched with the base pieces, the mold inserts at the sole positions on the shoe shell molds can be replaced, and the base pieces are subjected to mold injection through the matched mold inserts on the shoe shell molds and are integrally formed with the plastic shoe shells. Therefore, the plastic shoe shell can respectively produce the roller skates provided with the roller skate frame component and the ice skate provided with the ice skate component on the same set of die by only replacing the movable insert on the die at the sole part. Namely, the plastic shoe shell produced by the shoe shell mold with the same size is adopted, the movable inserts at the shoe bottom surface positions of the plastic mold are changed, the mode that the base pieces of the skating shoes with different styles are different and the positions are different is realized, and the mode that one mold can produce integrally-formed plastic shell skates and integrally-formed plastic shell roller skates is realized, so that the processing and production time of the plastic mold is saved, the cost is reduced, and the waste of resources is reduced.

In order to further enhance the beauty, comfort and experience, preferably, the outer side of the plastic shoe shell is adhered with a leather surface.

Compared with the prior art, the beneficial effects of the utility model are that: the integrally formed plastic shell skating shoes of the utility model adopts a new process of mold-containing injection of the inner shoe sleeve and the plastic shoe shell, and adopts a one-step compression forming process in the inner sleeve cold-pressing mold after pre-warming the inner shoe sleeve, and realizes the production of the same mold, the skates with various styles and the roller skating shoes by replacing the movable sole insert of the plastic shoe shell mold, the inner shoe sleeve is spliced without sewing, the inner shoe sleeve and the shoe shell are not pasted by glue, and the foot surface is more laminated, so that the integrally formed plastic shell skating shoes have the characteristics of portability, comfort, safety, environmental protection, firmness, durability and the like; the process greatly reduces the production cost, improves the quality and the efficiency, and is beneficial to protecting the body and the environment of staff.

Drawings

Fig. 1 is an overall top view structural diagram of an embodiment of the present invention;

FIG. 2 is an overall front view structure diagram of the embodiment of the present invention;

FIG. 3 is a top view of the inner cover of a shoe according to an embodiment of the present invention;

FIG. 4 is a side view of the inner sleeve of the shoe according to the embodiment of the present invention;

FIG. 5 is a top view of a shoe shell according to an embodiment of the present invention;

FIG. 6 is a side view of a shoe shell according to an embodiment of the present invention;

FIG. 7 is a front view of the second embodiment of the present invention;

FIG. 8 is a schematic top view of a second embodiment of the present invention;

wherein: 1. the shoe comprises an inner shoe sleeve, 2 parts of a plastic shoe shell, 3 parts of a reinforcing structure, 4 parts of a wheel sliding frame, 5 parts of a wheel set and 6 parts of an ice skate blade.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example one

Referring to fig. 1-6, an integrally formed plastic shell roller skate comprises an inner shoe sleeve 1, a plastic shoe shell 2 and a shoe rack assembly, wherein the shoe rack assembly is fixedly mounted at the bottom of the plastic shoe shell 2, the inner shoe sleeve 1 is formed in an inner sleeve mold at one time, the plastic shoe shell 2 is formed in one time at the outer side of the inner shoe sleeve 1 through the shoe shell mold, so that the plastic shoe shell 2 and the inner shoe sleeve 1 are integrally formed, and the specific manufacturing process is as follows: after the inner sleeve 1 of the shoe is molded, the inner sleeve is sleeved on the inner core of the shoe shell mold; the plastic shoe shell 2 is formed on the outer side of the shoe inner sleeve 1 in one step by a mode of injection molding of the shoe shell mold, so that the inner layer surface of the plastic shoe shell 2 is tightly combined with the outer layer surface of the shoe inner sleeve 1 to be integrally formed.

The shoe inner sleeve 1 is formed by one-step pressing of a cut piece composite material in an inner sleeve die into the shape and size of the shoe inner sleeve 1, and comprises an inner layer, a middle layer and an outer layer, wherein the middle layer is made of an EVA material.

The shoe shell mold is characterized in that a positioning structure matched with an inner core of the shoe shell mold is arranged on the shoe inner sleeve 1, the positioning structure is a small column corresponding to a eyelet hole of the shoe inner sleeve 1, and the eyelet hole is sleeved on the small column; the inner sleeve 1 of the shoe is matched with the inner core of the shoe shell mould to form the back button from the back end covering the heel part of the ankle foot to the convex-concave part covering the front end of the instep. The shoe inner sleeve 1 has certain elasticity, the displacement can be effectively prevented through the matching design of the displacement-preventing eyelet hole and the shoe shell mold, and the shoe inner sleeve 1 is clamped on the inner core of the shoe shell mold by the matched reverse buckle, so that the shoe inner sleeve is prevented from sliding out and loosening.

The outer side of the shoe edge part of the shoe inner sleeve 1 is made of hard EVA materials, and the inner side foot-attaching part is made of soft EVA materials. The shoe inner sleeve 1 is formed by one-step compression in an inner sleeve cold-pressing die after being preheated. The inner layer of the shoe inner sleeve 1 is made of microfiber materials.

The upper part of the shoe inner sleeve 1 is provided with a fastening structure, and the fastening structure is a eyelet group provided with a shoelace, or a magic tape kit fixedly installed. The outer side of the plastic shoe shell 2 is also provided with a zipper leather material at one section of the outer side at the position of the shoe tongue opening.

The outer layer of the shoe inner sleeve 1 comprises a fastening structure and a reinforcing structure 3 which is respectively hot-pressed with the connecting part of the plastic shoe shell 2. The reinforcing structure 3 is PU or long fiber material arranged on the outer side of the shoe inner sleeve 1.

The shoe rack component is a roller slide frame 4 and a wheel set 5 arranged on the roller slide frame, and the wheel set 5 comprises a plurality of rollers. The movable inserts of the plastic shell changing sole bottom position mould produced by the shoe shell mould with the same size are adopted, and the movable inserts of the mould changing with different styles realize different base pieces and positions of the skating shoes, so that the purposes that one mould can produce integrally formed skates and integrally formed roller skates can be achieved.

The outer side of the plastic shoe shell 2 is stuck with a leather surface.

Example two

Referring to fig. 7 to 8, the difference from the first embodiment is that the present embodiment is an integrally formed plastic shell skate shoe, and the shoe rack assembly is a skate rack and a skate 6 mounted thereon. The plastic shell bottom is provided with the skates 6 with different styles and the mounting positions and the mounting modes are changed, so that the integrally formed skates with various styles can be assembled into the shoes.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. An integrated into one piece plastic shell skating shoe, includes shoes endotheca, plastic shoes shell, shoe rack subassembly fixed mounting in plastic shoes shell bottom, its characterized in that, shoes endotheca once is the compression moulding in the endotheca mould, plastic shoes shell once injection moulding in the outside of shoes endotheca through shoes shell mould makes plastic shoes shell and shoes endotheca integrated into one piece, the interior aspect of plastic shoes shell closely combines, integrated into one piece with the outer aspect of shoes endotheca.

2. The integrally formed plastic shell skate of claim 1, wherein the inner boot is pre-warmed with the cut-parts composite material and then is cold-pressed in the inner boot cold-pressing mold for one time to form the shape and size of the inner boot, and the inner boot comprises an inner layer, an intermediate layer and an outer layer, wherein the intermediate layer is made of EVA or a material with certain elasticity.

3. The one-piece plastic shell skate as defined in claim 2 wherein the inner boot shell is provided with a positioning structure which is matched with the inner core of the boot shell mold, the positioning structure is a keyhole of the inner boot shell, correspondingly, the boot shell mold is provided with a small cylinder, and the keyhole is sleeved on the small cylinder; the inner sleeve of the shoe is matched with the inner core of the shoe shell mold to form an inverted buckle from the convex-concave part covering the rear end of the heel part of the ankle foot to the convex-concave part covering the front end of the instep, and the inner sleeve of the shoe is hung by the inverted buckle and cannot move freely.

4. The one-piece plastic shell skate of claim 2 or 3, wherein the outer side of the toe portion of the inner boot is made of a rigid EVA material; the inner side foot-pasting part is made of soft EVA material.

5. The one-piece plastic shell skate of claim 3 wherein the inner layer of the boot inner shell is made of microfiber.

6. The one-piece formed plastic shell skating shoe as claimed in claim 3, wherein a fastening structure is provided on the upper portion of the inner sleeve, the fastening structure is a eyelet set provided with a shoelace, or a fixedly installed magic tape set.

7. The integrally formed plastic shell skate of claim 6, wherein a section of leather material with a zipper is further adhered to the outer side of the plastic shell at the tongue opening.

8. The one-piece plastic shell skate of claim 7, wherein the outer layer of the inner boot shell comprises a reinforcing structure that is heat pressed at the fastening structure and the connection portion with the plastic boot shell.

9. An integrally formed plastic shell skate as defined in claim 8 wherein said reinforcement structure is PU or filament fabric disposed on the outside of said boot inner shell.

10. The integrally formed plastic shell skate of claim 3, wherein the shoe rack assembly is a wheel carriage and a wheel set mounted thereon, or a skate blade assembly; the integrally-formed plastic shell skating shoe further comprises a plurality of base pieces matched with the sole surface of the plastic shoe shell, correspondingly, the shoe shell mold is provided with a plurality of detachable inserts matched with the base pieces, and the inserts at the sole position on the shoe shell mold can be replaced; the upper side part of the outer shoe body of the plastic shoe shell is adhered with a leather surface.

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