ROLLER-SKATING AND ICE-SKATING SHOES EASY TO PUT ON AND TAKE OFF

TECHNICAL FIELD

The present disclosure relates to the technical field of shoes, and in particular to roller-skating and ice-skating shoes that are easy to put on and take off.

BACKGROUND

Shoes are a necessity of life, worn with the feet for the protection of the human feet. With the different functional requirements and the use of different people, the types of shoes are gradually increasing. However, the existing shoes are not convenient to put on and take off, requiring the foot to be put on or taken off at an angle, which causes long put-on and take-off time.

SUMMARY OF THE DISCLOSURE

The purpose of the present disclosure is to provide roller-skating and ice-skating shoes that are easy to put on and take off, in order to solve the technical problems of the related art in which shoes are inconvenient and time-consuming to put on and take off.

To achieve the above technical effect, the present disclosure provides roller-skating and ice-skating shoes that are easy to put on and take off, including: a shoe body, an upper, a tongue, a locking structure, and a roller-skating assembly or an ice-skating assembly; wherein a bottom of the shoe body is connected to the roller-skating assembly or the ice-skating assembly, and the locking structure is configured to lock the upper to the shoe body; the shoe body is arranged with a connection member, the upper is connected to the shoe body through the connection member, and the upper is flippable around the connection member.

In some embodiments, the upper is fixedly connected to the tongue, and the upper is capable of driving the tongue to flip around the connection member.

In some embodiments, the upper includes a first connection and a second connection, each of the first connection and second connection being flippable around a corresponding connection point with the shoe body, and the tongue being flippable outward around a connection point with the shoe body.

In some embodiments, the shoes further include: an inner sleeve arranged inside the shoe body; wherein the bottom of the shoe body defines a mounting connection slot, and the shoe body is connected to the roller-skating assembly or the ice-skating assembly through the mounting connection slot.

In some embodiments, the locking structure includes a quick release buckle lock, a quick release strap, and an elastic piece; the elastic piece is arranged on a side of the shoe body, an included angle between the elastic piece and the side being acute; the quick release buckle lock is arranged on the elastic piece; the quick release strap is arranged on another side of the shoe body, and the quick release strap is extendable toward the quick release buckle lock to be connected with the quick release buckle lock.

In some embodiments, the quick release buckle lock defines an L-shaped opening.

In some embodiments, the upper is arranged with a limit block group including at least two limit blocks and a cavity surrounded by the at least two limit blocks; the quick release strap is connected to the quick release buckle lock through the cavity.

In some embodiments, a top of the shoe body is integrally connected with a leg restraint mechanism, and the leg restraint mechanism includes a restraint shoe body, a fixing part arranged on a side wall of an opening of the restraint shoe body, and a movable connection arranged on another side wall of the opening; the movable connection is removably connected to the fixing part.

In some embodiments, a toe cap is sleeved outside a bottom wall of the shoe body, and the toe cap is slidably connected to the shoe body; a bottom of the toe cap is fixedly connected to an adjuster, and the adjuster is a foldable structure.

In some embodiments, the roller-skating assembly includes a connection frame and a pulley set; a bottom of the connection frame is connected to the pulley set, and a top of the connection frame is connected to the mounting connection slot; the ice-skating assembly includes a knife bridge, a skating knife, and a knife tube; wherein a bottom of the knife bridge is connected to the knife tube and the skating knife, and a top of the knife bridge is connected to the mounting connection slot.

In summary, the beneficial effects of the present disclosure relative to the related art are: the present disclosure provides roller-skating and ice-skating shoes that are easy to put on and take off, including: a shoe body, an upper, a tongue, a locking structure, and a roller-skating assembly or an ice-skating assembly; wherein a bottom of the shoe body is connected to the roller-skating assembly or the ice-skating assembly, and the locking structure is configured to lock the upper to the shoe body; the shoe body is arranged with a connection member, the upper is connected to the shoe body through the connection member, and the upper is flippable around the connection member. By the provided roller-skating and ice-skating shoes that are easy to put on and take off, through the rotation connection between the upper and the shoe body, the upper can be flipped at different angles, such that the foot can be directly stepped into the shoe body, thereby solving the problem of the existing technology that putting on and taking off shoes take a long time due to the fact that the foot must be diagonally into or out of the shoes, such that it is convenient to put on and take off and saves time to put on and take off.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to more clearly illustrate the technical solutions in the specific embodiments or prior art of the present disclosure, the following is a brief description of the accompanying drawings that need to be used in the description of the specific embodiments or prior art. It is obvious that the accompanying drawings in the following description are some embodiments of the present disclosure, and other accompanying drawings can be obtained from these drawings without creative work for those skilled in the art.

FIG. 1 is a structural schematic view of roller-skating and ice-skating shoes that are easy to put on and take off according to Embodiment I of the present disclosure.

FIG. 2 is a schematic view of a first mode of flip-flop of roller-skating and ice-skating shoes that are easy to put on and take off according to Embodiment I of the present disclosure.

FIG. 3 is a schematic view of a second mode of flip-flop of roller-skating and ice-skating shoes that are easy to put on and take off according to Embodiment II of the present disclosure.

FIG. 4 is a structural schematic view of a locking structure of roller-skating and ice-skating shoes that are easy to put on and take off according to Embodiment I of the present disclosure.

FIG. 5 is a positional schematic view of a limit block group and a cavity in roller-skating and ice-skating shoes that are easy to put on and take off according to Embodiment I of the present disclosure.

FIG. 6 is a structural schematic view of a leg restraint mechanism of roller-skating and ice-skating shoes that are easy to put on and take off according to Embodiment I of the present disclosure.

FIG. 7 is a positional schematic view of a toe cap and an adjuster of roller-skating and ice-skating shoes that are easy to put on and take off according to an embodiment of the present disclosure.

FIG. 8 is a structural schematic view of roller-skating and ice-skating shoes that are easy to put on and take off, where an ice-skating assembly is replaced with a roller-skating assembly, according to an embodiment of the present disclosure.

FIG. 9 is a schematic view of a third mode of flip-flop of roller-skating and ice-skating shoes that are easy to put on and take off according to Embodiment II of the present disclosure.

NUMERAL REFERENCE

Shoe body 1, toe cap 11, adjuster 12, upper 2, first connection 21, second connection 22, third connection 23, limit block group 24, cavity 25, tongue 3, connection member 4, locking structure 5, quick release buckle lock 51, quick release strap 52, elastic piece 53, leg restraint mechanism 6, restraint shoe body 61, fixing part 62, movable connection 63, roller-skating assembly 7, connection frame 71, pulley set 72, inner sleeve 8.

DETAILED DESCRIPTION

Multiple embodiments are given below for a detailed description of the present disclosure.

Embodiment 1

As shown in FIGS. 1 and 2, provided are roller-skating and ice-skating shoes that are easy to put on and take off, including: a shoe body 1, an upper 2, a tongue 3, a locking structure 5, and a roller-skating assembly 7 or an ice-skating assembly; a bottom of the shoe body 1 is connected to the roller-skating assembly 7 or the ice-skating assembly, and the locking structure 5 can lock the upper 2 to the shoe body 1; the shoe body 1 is arranged with a connection member 4, the upper 2 is connected to the shoe body 1 through the connection member 4, and the upper 2 can be flipped around the connection member 4.

In some embodiments (as shown in FIG. 2), the connection member 4 is arranged at a front end of the shoe body 1, the upper 2 is connected to the shoe body 1 through the connection member 4, and the upper 2 is flipped around the connection member 4 towards the front of the shoe body 1. In some embodiments, the connection member 4 is a link pin that links the upper 2 to the front end of the shoe body 1, and the upper 2 is rotated around the link pin to achieve the flipping of the upper 2 around the shoe body 1.

When putting on the shoes, the upper 2 is flipped outward around the front end of the shoe body 1. When the upper 2 is at a right angle or obtuse angle to the bottom surface of the shoe body 1, an internal space of the shoe body 1 is completely exposed, and the foot can be directly stepped into the inside of the shoe body 1. The upper 2 is flipped around the front end of the shoe body 1 in a direction toward the inside of the shoe body 1 to fit the upper 2 to the instep of the foot, and the upper 2 is locked to the surface of the shoe body 1 through the locking structure 5, thereby completing the shoe putting action, replacing the previous way of putting on shoes where the toe needs to be put in diagonally downwards, making it more convenient to put on shoes.

When taking off the shoes, the locking structure 5 is opened and the upper 2 is flipped outward around the front end of the shoe body 1. When the upper 2 is at a right angle or obtuse angle to the bottom surface of the shoe body 1, the internal space of the shoe body 1 is completely exposed, and the foot can be lifted upward to complete the shoe removal action.

In the process of putting on and taking off shoes, the foot can be stepped into and lifted straight up and down, which is easy to put on and take off and saves time, instead of lifting up the heel first and then slowly taking out the foot completely when taking off shoes, which takes a long time and requires maintaining good body balance.

In some embodiments, the connection member 4 may be a connection rod, and a connection hole is defined oppositely at a front port of the shoe body 1, and the connection rod is rotatably connected to the connection hole. The connection rod is fixedly connected to the upper 2, such that the upper 2 can be flipped around the front of the shoe body 1.

In the embodiments, the connection member 4 is chosen to be a link pin for illustration, which has a long service life and good structural stability.

Further, the upper 2 is fixedly connected to the tongue 3, and the upper 2 drives the tongue 3 to flip around the connection member 4 (as shown in FIGS. 2, 5, 7 and 9).

In some embodiments, the tongue 3 is connected to the upper 2 by means of nailing. The tongue 3 is brought into contact with a bottom surface of the upper 2, and nails are driven to fasten the two, such method has good tightness and is not easy to be separated after molding.

In some embodiments, the tongue 3 and the upper 2 are connected by means of adhesive, a contact area between the tongue 3 and the upper 2 is coated with adhesive, the upper 2 is covered above the contact area, the tongue 3 and the upper 2 are squeezed, and the tongue 3 and the upper 2 can be tightly connected after the adhesive has set. In this way, the production and manufacturing are more convenient and the tongue 3 and the surface of the upper 2 is not damaged, which does not affect the aesthetic appearance and is welcomed by consumers.

In some embodiments, the tongue 3 and the upper 2 are connected by stitching, the tongue 3 is in contact with the bottom surface of the upper 2 and stitched in the contact area. By this method, different patterns can be sewn according to preference, which is beautiful and generous.

In the embodiments, the tongue 3 is connected to the upper 2 by stitching for illustration. In use, since the tongue 3 is fixedly connected to the upper 2, the tongue 3 is driven to flip around the front of the shoe body 1 when the upper 2 is flipped over.

Further, the upper 2 includes a first connection 21 and a second connection 22, each of the first connection 21 and second connection 22 being flippable around a corresponding connection point with the shoe body 1; the tongue 3 is flippable outward around a connection point with the shoe body 1 (as shown in FIG. 3).

When putting on and taking off the shoes, each of the first connection 21 and second connection 22 is flippable around a corresponding connection point with the shoe body 1, and the tongue 3 can be flipped outward around its connection point with the shoe body 1, such that the space inside the shoe body 1 is exposed. Specifically, when putting on the shoes, the foot can be stepped vertically downward into the shoe body 1, and when taking off the shoes, the foot can be lifted vertically upward.

Further, the shoe may further include an inner sleeve 8 arranged inside the shoe body 1 (as shown in FIG. 9), and the bottom of the shoe body 1 defines a mounting connection slot. The shoe body 1 is connected to the roller-skating assembly 7 or the ice-skating assembly through the mounting connection slot.

In some embodiments, the shoe body 1 and the inner sleeve 8 are arranged in one piece, formed by composite materials by hot or cold press molding, which is more in line with the ergonomics of the foot wrapping to enhance comfort;

In some embodiments, the inner sleeve 8 is made by a conventional sewing method.

In the embodiments the above one-piece cold pressing molding method is applied for illustration, enabling better wearing comfort.

Further, the locking structure 5 may include a quick release buckle lock 51, a quick release strap 52, and an elastic piece 53 (as shown in FIG. 4).

The elastic piece 53 is arranged on a side of the shoe body 1, an included angle between the elastic piece 53 and the side being acute. The quick release buckle lock 51 is arranged on the elastic piece 53, such that there is a slope between the quick release buckle lock 51 and the outer surface of the shoe body 1, which facilitates the quick connection with the quick release strap 52.

The quick release strap 52 is arranged on another side of the shoe body 1, and the quick release strap 52 extends toward the quick release buckle lock 51 to be connected with the quick release buckle lock 51.

In some embodiments, the quick release strap 52 extends to the quick release buckle lock 51 to be connected with the quick release buckle lock 51 by means of a serpentine buckle lock, which is a common application in student bags, shoulder bags, etc. to be connected to the shoulder strap. The quick release strap 52 can be worn in and out along a cavity inside the serpentine buckle lock, which is a common structural way to facilitate operation.

In some embodiments, the locking structure 5 may be adopted with a seat belt group structure, which is a common application in car, aircraft, ship, and other means of transport. Among them, the quick release buckle lock 51 serves as a fastening latch of the seat belt group, and the quick release strap 52 as a retractable seat belt, which are connected through a fast plugging.

In some embodiments, the quick release strap 52 extends to the quick release buckle lock 51 to be connected with the quick release buckle lock 51 by means of a latch assembly, which is a common application in student bags, shoulder bags, etc. to be connected to the shoulder strap. Specifically, the quick release buckle lock 51 defines a limiting cavity, a port of the quick release strap 52 is arranged with an elastic fast plug. In the process of fitting, the elastic fast plug produces elastic deformation by a squeezing pressure, and is not subject to squeezing pressure in the limiting cavity and reset outward. The use of this more common structure may facilitate operations.

Further, the quick release buckle lock 51 defines an L-shaped opening, such that it is easy to quickly find the location and connect the quick release strap 52 with the quick release buckle lock 51.

Further, the upper 2 is arranged with a limit block group 24 including at least two limit blocks and a cavity 25 surrounded by the at least two limit blocks (as shown in FIG. 5).

The quick release strap 52 is connected to the quick release buckle lock 51 through the cavity 25.

In some embodiments, the limit block group 24 includes a pair of oppositely arranged limit blocks (as shown in FIGS. 1-8) and fixedly arranged on the upper 2, and the quick release strap 52 is connected to the quick release buckle lock 51 through the cavity 25 of the limit block group 24. The cavity 25 of the limit block group 24 can effectively prevent the quick release strap 52 from tampering and misalignment.

In some embodiments, the limit block group 24 includes multiple limit blocks, and the shape of the cavity 25 formed according to the arrangement of the multiple limit blocks can limit the shape of the quick release strap 52 on the surface of the upper 2, increasing the design aesthetics.

In the embodiments, the limit block group 24 consisting of two oppositely arranged limit blocks are taken as an example for illustration.

Further, the top of the shoe body 1 is integrally connected with a leg restraint mechanism 6, and the leg restraint mechanism 6 includes a restraint shoe body 61, a fixing part 62 arranged on a side wall of an opening of the restraint shoe body 61, and a movable connection 63 arranged on another side wall of the opening. The movable connection 63 is removably connected to the fixing part 62 (as shown in FIG. 6).

In some embodiments, the fixing part 62 is a fixed buckle pin, the movable connection 63 is a connection belt, and the movable connection 63 defines multiple restriction holes.

When putting on the shoes, the upper 2 is flipped to a desired angle, thus the tongue 3 and the upper 2 in one piece are flipped at a certain angle since the upper 2 is fixedly connected to the tongue 3; when the angle between the upper 2 and the shoe body 1 is right angle or obtuse angle, the upper 2 makes completely none affection on the foot stepping directly into the shoe body 1, such that the foot can be stepped vertically down into the shoe body 1; after the foot enters, the upper 2 is flipped outward with the connection rod 4 at the front of the shoe body 1 as the center, the quick release strap 52 is pulled in a direction toward the quick release buckle lock 51 to match the quick release strap 52 with the quick release buckle lock 51, thereby completing a foot restraint action; the movable connection 63 is moved away from the fixing part 62, and since the fixing part 62 is a fixed buckle pin and the movable connection 63 defines the multiple restriction holes, a leg restraint action is completed through the interpolation connection between the buckle pin and the restriction holes.

When it is necessary to take off the shoes, the movable connection 63 is moved away from the fixing part 62, the quick release strap 52 is pulled away from the quick release buckle lock 51, the integrally connected tongue 3 and upper 2 are pulled upward and rotated around the connection member 4 arranged at the front of the shoe body 1, and when the upper 2 is at a right angle or obtuse angle to the shoe body 1, the foot can be directly pulled out to complete the action of taking off the shoes.

By virtue of the above design, the foot can be lifted straight up in the vertical direction to take off the shoe and stepped straight down to put on the shoe, replacing the previous operation that requires the heel to be pulled out diagonally upward and the toe to be inserted diagonally downward, thereby saving the time for putting on and taking off the shoes and making the process of putting on and taking off simple and convenient.

Further, a toe cap 11 is sleeved outside the bottom wall of the shoe body 1, and the toe cap 11 is slidably connected to the shoe body 1. A bottom of the toe cap 11 is fixedly connected to an adjuster 12, and the adjuster 12 is a foldable structure. When the adjuster 12 is folded upward and close to the shoe body 1, the walking action will not be affected when wearing (as shown in FIG. 7). When there is a need to adjust the size of the space inside the shoe body 1, the toe cap 11 slides, under drive of the adjuster 12, along a slide of the outer wall of the shoe body 1 to reach a suitable position.

In some embodiments, the toe cap 11 is sleeved outside the shoe body 1, the outer wall of the shoe body 1 defines the slide with slots, an inner wall of the toe cap 11 is arranged with sliding teeth, and the adjuster 12 is arranged between a bottom end of the toe cap 11 and the shoe body 1. When adjustment is needed, the adjuster 12 is manually pushed to drive the toe cap 11 to slide, and the adjuster 12 is released at a suitable position to mediate the shoe size to meet needs of children growing up and the needs of different people. In some embodiments, the toe cap 11 is a “U”-shaped structure, and an elastic soft cushion is arranged flush with the inner sleeve 8 on the internal bottom surface, such that when the toe cap 11 is sliding and stretching, the elastic soft cushion is flush with the inner sleeve 8, thus there is no height inconsistency and discontinuity to ensure the comfort of using the shoe; in a sliding contraction state, the elastic soft cushion is compressed in the vertical direction by the extrusion pressure of the external bottom wall of shoe body 1 and the bottom wall of the toe cap 11. The above design is the same as commercially available size-adjustable shoe adjustment mechanism, which is not overly explained herein. In some embodiments, a spacing between two adjacent slots in the slide is based on a standard shoe size, such that a shoe with a standard size and adjustable length can be made.

In some embodiments, the spacing of the two adjacent slots in the slide may be in commonly used units of length measurement such as centimeters, millimeters, etc.

Further, the roller-skating assembly 7 includes a connection frame 71 and a pulley set 72. A bottom of the connection frame 71 is connected to the pulley set 72, and a top of the connection frame 71 is connected to the mounting connection slot (as shown in FIG. 8).

The ice-skating assembly includes a knife bridge, a skating knife, and a knife tube. A bottom of the knife bridge is connected to the knife tube and the skating knife, and a top of the knife bridge is connected to the mounting connection slot.

In some embodiments, an inner wall of the mounting connection slot defines a connection slot hole, and the ice-skating assembly or roller-skating assembly 7 is connected to the connection slot hole, thereby completing the assembly operation.

In some embodiments, a connection mechanism is arranged between the ice-skating assembly and the mounting connection slot, and a top end of the connection mechanism snaps to the mounting connection slot and a bottom end of the connection mechanism is connected to a top end of the ice-skating assembly.

In the embodiments, the mounting connection slot defines the connection slot hole to snap to the ice-skating assembly or roller-skating assembly 7, as an example for illustration.

In some embodiments, the pulley set 72 is a single row of pulleys, rotatably connected to the connection frame 71 to form single-row roller-skating shoes.

In some embodiments, the pulley set 72 is a double row of pulleys, rotatably connected to both sides of the connection frame 71 to form double-row roller-skating shoes.

Embodiment 2

As shown in FIG. 9, in a second mode of flip-flop, the roller-skating and ice-skating shoes that are easy to put on and take off include a shoe body 1, an upper 2, a tongue 3, a locking structure 5, and a roller-skating assembly 7 or an ice-skating assembly; a bottom of the shoe body 1 is connected to the ice-skating assembly, and the locking structure 5 locks the upper 2 to the shoe body 1; the shoe body 1 is arranged with a connection member 4, the upper 2 is connected to the shoe body 1 through the connection member 4, and the upper 2 can be flipped around the connection member 4.

In some embodiments, the connection member 4 is arranged on a side edge of the shoe body 1 (as shown in FIG. 9), the upper 2 is connected to the shoe body 1 through the connection member 4, and the upper 2 is flipped around the connection member 4 towards the outside of the shoe body 1. In some embodiments, the connection member 4 is a link pin that links the upper 2 to the side edge of the shoe body 1, and the upper 2 is rotated around the link pin to achieve the flipping of the upper 2 around the shoe body 1 to the outside.

When putting on the shoes, the upper 2 is flipped outward around the connection member 4 arranged on the side edge of the shoe body 1. When the upper 2 is at a right angle or obtuse angle to the bottom surface of the shoe body 1, an internal space of the shoe body 1 is completely exposed, and the foot can be directly stepped into the inside of the shoe body 1. The upper 2 is flipped around the connection member 4 arranged on the side edge of the shoe body 1 in a direction toward the inside of the shoe body 1 to fit the upper 2 to the instep of the foot, and the upper 2 is locked to the surface of the shoe body 1 through the locking structure 5, thereby completing the shoe putting action, replacing the previous way of putting on shoes where the toe needs to be put in diagonally downwards, making it more convenient to put on shoes.

When taking off the shoes, the locking structure 5 is opened and the upper 2 is flipped outward around the side edge of the shoe body 1. When the upper 2 is at a right angle or obtuse angle to the bottom surface of the shoe body 1, the internal space of the shoe body 1 is completely exposed, and the foot can be lifted upward to complete the shoe removal action.

Further, the upper 2 is fixedly connected to the tongue 3, and the upper 2 drives the tongue 3 to flip around the connection member 4 (as shown in FIG. 9).

Further, the locking structure 5 includes a quick release buckle lock 51, a quick release strap 52, and an elastic piece 53 (as shown in FIG. 4).

Further, the quick release buckle lock 51 defines an L-shaped opening, such that it is easy to quickly find the location and connect the quick release strap 52 with the quick release buckle lock 51.

Further, the upper 2 is arranged with a limit block group 24 including at least two limit blocks and a cavity 25 surrounded by the at least two limit blocks (as shown in FIG. 5).

The quick release strap 52 is connected to the quick release buckle lock 51 through the cavity 25.

In the embodiments, the limit block group 24 consisting of two oppositely arranged limit blocks are taken as an example for illustration.

In the process of putting on and taking off the shoes:

The upper 2 is flipped open to a desired angle, thus the tongue 3 and the upper 2 in one piece are flipped at a certain angle since the upper 2 is fixedly connected to the tongue 3; when the angle between the upper 2 and the shoe body 1 is right angle or obtuse angle, the upper 2 makes completely none affection on the foot stepping directly into the shoe body 1, such that the foot can be stepped vertically down into the shoe body 1; after the foot enters, the upper 2 is flipped and reset, and the quick release strap 52 is pulled in a direction toward the quick release buckle lock 51 to match the quick release strap 52 with the quick release buckle lock 51, thereby completing a foot restraint action; the movable connection 63 is moved toward the fixing part 62 and connected, to complete a leg restraint action.

When it is necessary to take off the shoes, the movable connection 63 is moved in a direction away from the fixing part 62, the quick release strap 52 is pulled in a direction away from the quick release buckle lock 51; the integrally connected tongue 3 and upper 2 are pulled upward and rotated around the connection member 4 arranged at the front or outer edge of the shoe body 1, and when the upper 2 is at a right angle or obtuse angle to the shoe body 1, the foot can be directly pulled out and complete the action of taking off the shoes.

Embodiment 3

The present embodiment provides ways of flip-flop of roller-skating and ice-skating shoes that are easy to put on and take off.

Mode 1: as shown in FIG. 2, the connection member 4 is arranged in the front of the shoe body 1, the upper 2 is integrally connected with the tongue 3, and the upper 2 is flipped to rotate around the shoe body 1, driving the tongue 3 to flip around the connection member 4 arranged in the front of the shoe body 1 together, exposing the space inside the shoe body 1.

Mode 2: as shown in FIG. 8, the connection member 4 is arranged at the external edge of the shoe body 1, the upper 2 and the shoe body 1 are connected through the connection member 4, the upper 2 is flipped towards the external side of the shoe body 1 to be opened laterally, exposing the space inside the shoe body 1.

Mode 3: as shown in FIG. 3, the connection rod 4 is set at the front, both sides of the outer edge of the shoe body 1, the first connection 21 is connected to the connection member 4 at the front of the shoe body 1, the second connection 22 and the third connection 23 are connected to the connection member 4 arranged at the side edge of the shoe body 1. The three connections can be flipped toward the front and both sides of the shoe body 1, exposing the space inside the shoe body 1.

When putting on the shoes, the foot is stepped vertically into the shoe body 1, the upper 2 is flipped and reset, the quick release strap 52 is pulled in the direction toward the quick release buckle lock 51 to complete the foot restraint action, and the movable connection 63 is matched with the fixing part 62 to complete the leg restraint action.

When taking off the shoes, the movable connection 63 is separated from the fixing part 62, the quick release strap 52 is separated from the quick release buckle lock 51, the upper 2 is pulled, and when the upper 2 is at a right angle or obtuse angle to the shoe body 1, the foot can be directly pulled out to complete the shoe removal action, which is convenient to put on and take off and saves the putting on and taking off time.

In summary, the present disclosure provides roller-skating and ice-skating shoes that are easy to put on and take off. Through the flippable connection between the upper 2 and the shoe body 1, it is easy for the foot to step directly into the shoe body or vertical up to pull out, thereby solving the problem of the existing technology when putting on shoes, with the problem that the foot must be oblique to put in or take off the shoes.

In the description of the present disclosure, it is to be understood that the terms “up”, “down”, “top”, “bottom” “inside”, “outside”, “behind”, etc. indicate orientations or positional relationships based on those shown in the accompanying drawings and are intended only to facilitate and simplify the description of the present disclosure, not to indicate or imply that the device or element referred to must have a particular orientation, be constructed and operate in a particular orientation, and therefore are not to be construed as a limitation of the present disclosure.

In the present disclosure, unless otherwise expressly specified and limited, the terms “mounted”, “connected”, “coupled”, “fixed”, etc. shall be understood in a broad sense, for example, they may be fixed connections, or removable connections, or in one piece; they may be mechanical connections or electrical connections; they may be directly connected or indirectly connected through an intermediate medium, and they may be a connection within two components or an interactive relationship between two components. To those skilled in the art, the specific meaning of the above terms in the present disclosure can be understood according to the specific circumstances.

The above described is only embodiments of the present disclosure, but the scope of the present disclosure is not limited thereto, those skilled in the art may easily make changes or variations within the scope of the technology disclosed in the present disclosure, and such changes or variations shall be covered by the scope of the present disclosure. Therefore, the scope of the present disclosure shall be subject to the scope of the claims. The various technical features mentioned in the various embodiments can be combined in any manner as long as there is no structural conflict. The present disclosure is not limited to the particular embodiments disclosed herein, but includes all technical solutions that fall within the scope of the claims.

ROLLER-SKATING AND ICE-SKATING SHOES EASY TO PUT ON AND TAKE OFF

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