CN216438636U - Size adjustable shoes structure - Google Patents

Abstract

The utility model relates to a shoe body structure with adjustable size, which comprises a fixed shoe body, a movable shoe body, a pressable piece, a multi-section locking component and an elastic element, wherein the movable shoe body is movably assembled and connected with the fixed shoe body; the pressable piece is movably assembled and connected with the fixed shoe body and partially exposed out of the fixed shoe body; the multi-section locking component comprises a tooth row and a tooth block, the tooth row is arranged on one of the movable shoe body and the pressable piece, and the tooth block is arranged on the other of the movable shoe body and the pressable piece; the elastic element is elastically supported between the fixed shoe body and the pressable piece and drives the pressable piece to approach the movable shoe body so as to enable the tooth row and the tooth block to be mutually clamped; wherein, the pressable piece can be kept away from the movable shoe body when being pressed, so that the tooth row and the tooth block are separated from each other, and the shoe body structure has the advantage of convenient size adjustment.

Description

Size adjustable shoes structure

Technical Field

The present invention relates to a shoe structure such as a ski boot, an inline skate, a skate blade, and a hockey skate, and more particularly, to a shoe structure with adjustable size.

Background

At present, a plurality of shoes with more strenuous sports properties need to have certain protection and stability, such as ski boots, inline skates, ice skates, hockey and the like, so that most shoes are matched with users in a fixed size, thereby obtaining reliable quality and achieving the effects of high strength, safety, comfort and stability.

However, when the size of the sole changes due to growth, etc., the user needs to choose again, which results in excessive consumption and even affects the buying desire, and manufacturers, vendors and playground owners also need to stock a lot of shoes with different sizes, which results in huge burden of production and management costs.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a shoe body structure with adjustable size, which utilizes the mutual clamping or separation of the tooth row and the tooth block to further fix or adjust the distance from the movable shoe body to the fixed shoe body so as to achieve the advantage that the shoe body structure has convenient size adjustment.

In order to achieve the above object, the present invention provides a size-adjustable shoe body structure, comprising: a fixed shoe body; a movable shoe body movably assembled with the fixed shoe body; the pressable piece is movably assembled and connected with the fixed shoe body and partially exposed out of the fixed shoe body; a multi-section locking component, which comprises a row of teeth and a tooth block, wherein the row of teeth is arranged on one of the movable shoe body and the pressable piece, and the tooth block is arranged on the other of the movable shoe body and the pressable piece; the elastic element is elastically supported between the fixed shoe body and the pressable piece and drives the pressable piece to approach the movable shoe body so as to enable the row of teeth to be mutually clamped with the tooth block; wherein, the pressing piece can be far away from the movable shoe body when being pressed, so that the row of teeth and the tooth block are mutually separated.

In the above size-adjustable shoe structure, the movable shoe body extends to form a protrusion, the pressing member has a recess and a first sidewall and a second sidewall located on opposite sides of the recess, the protrusion is movably accommodated in the recess, the row of teeth extends from one of the protrusion and the inner side of the first sidewall, and the tooth block extends from the other of the protrusion and the inner side of the first sidewall.

In the shoe body structure with the adjustable size, the fixed shoe body is provided with a containing cavity and a transparent opening communicated with the containing cavity, the pressable piece is contained in the containing cavity, the outer side of the second side wall is provided with a pressable block movably penetrating through the transparent opening, and the elastic element is elastically supported between the fixed shoe body and the outer side of the first side wall.

In the above size-adjustable shoe structure, the fixed shoe body extends to form a plurality of stop blocks located inside the transparent opening, the compressible block is provided with a plurality of notches, and each stop block can be embedded in each notch and stops at the compressible block.

In the above shoe body structure with adjustable size, the compressible block is an L-shaped block.

In the above size-adjustable shoe structure, the fixed shoe body extends to form a positioning groove located inside the cavity, the outer side of the first sidewall extends to form a shaft rod, and the elastic element is embedded in the positioning groove and sleeved on the shaft rod.

The shoe body structure with the adjustable size comprises a shoe base and a shoe pad plate fixedly connected to the top of the shoe base, wherein the accommodating cavity is formed in a concave mode from the top of the shoe base, the shoe pad plate is provided with a strip-shaped groove which is communicated with the accommodating cavity and corresponds to the groove, and the lug penetrates through the strip-shaped groove and can move horizontally along the strip-shaped groove.

The shoe body structure with adjustable size further comprises at least one locking element, the insole board is provided with at least one locking hole, the movable shoe body is provided with at least one long hole, and the locking element penetrates through the long hole and is locked in the locking hole.

The shoe body structure with adjustable size is characterized in that the insole board is provided with at least one rail, at least one through hole and at least one strip-shaped fixture block, the through hole and the strip-shaped fixture block are located on one side of the rail, the through hole is located at one end of the strip-shaped fixture block, the movable shoe body extends to form at least one sliding block, the sliding block is provided with a straight section and a transverse section extending from the bottom end of the straight section, the straight section can movably penetrate through the rail, and the transverse section can be stopped or separated from the through hole by the strip-shaped fixture block.

In the above size-adjustable shoe body structure, the movable shoe body is a toe cap.

The utility model has the beneficial effects that: the size-adjustable shoe body structure utilizes the mutual clamping or separation of the tooth row and the tooth block, so as to fix or adjust the distance from the movable shoe body to the fixed shoe body, thereby achieving the advantage that the shoe body structure has convenient size adjustment.

The utility model is described in detail below with reference to the drawings and specific examples, but the utility model is not limited thereto.

Drawings

FIG. 1 is a perspective assembly view of the shoe body structure of the present invention.

Fig. 2 is an exploded perspective view of the shoe body structure of the present invention.

Fig. 3 is a cross-sectional view schematically illustrating a first use state of the footwear body structure according to the present invention.

Fig. 4 is another cross-sectional view of the first using state of the footwear body structure according to the present invention.

FIG. 5 is a side view of the shoe body structure of the present invention in a first use state.

FIG. 6 is a top view of the shoe body structure of the present invention in a first use state.

Fig. 7 is a cross-sectional view schematically illustrating a second use state of the footwear body structure according to the present invention.

Fig. 8 is another cross-sectional view schematically illustrating a second use state of the footwear body structure according to the present invention.

FIG. 9 is a side view of the shoe body structure of the present invention in a second use state.

FIG. 10 is a top view of the shoe body structure of the present invention in a second use state.

Wherein, the reference numbers:

10: shoe body structure

1: fixed shoe body

11: containing chamber

12: transparent opening

13: stop block

14: locating slot

15: shoe sole seat

16: shoe pad

161: strip-shaped groove

162: lock hole

163: track

164: through hole

165: bar-shaped fixture block

2: movable shoe body

20: toe cap sleeve

21: bump

22: long hole

23: sliding block

231: straight section

232: transverse segment

3: pressing piece

31: groove

32: first side wall

321: shaft lever

33: second side wall

331: pressing block

332: gap(s)

333: l-shaped block

4: multi-section locking assembly

41: row teeth

42: tooth block

5: elastic element

6: locking element

Detailed Description

The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which some, but not all embodiments of the utility model are shown.

Referring to fig. 1 to 10, the present invention provides a shoe structure with adjustable size, the shoe structure 10 mainly includes a fixed shoe 1, a movable shoe 2, a pressing member 3, a multi-section locking component 4 and an elastic element 5.

As shown in fig. 1 to 10, the fixing shoe body 1 is provided with a cavity 11 and a transparent opening 12 communicated with the cavity 11, and the fixing shoe body 1 extends with a plurality of stop blocks 13 located inside the transparent opening 12 and a positioning groove 14 located inside the cavity 11.

As described in detail below, the fixing shoe body 1 includes a shoe base 15 and a shoe pad 16 fixedly connected to the top of the shoe base 15, the cavity 11 is formed by being recessed from the top of the shoe base 15, the shoe pad 16 covers the cavity 11, the shoe pad 16 is further provided with a strip-shaped groove 161, one or more locking holes 162, one or more rails 163, one or more through holes 164, and one or more strip-shaped fixture blocks 165, the strip-shaped groove 161 is communicated with the cavity 11 and disposed corresponding to the groove 31, the through holes 164 and the strip-shaped fixture blocks 165 are located on one side of the rails 163, and the through holes 164 are located at one end of the strip-shaped fixture blocks 165.

As shown in fig. 1 to 10, the movable shoe body 2 is movably assembled to the fixed shoe body 1, the movable shoe body 2 extends to form a protrusion 21 and is provided with one or more long holes 22, and the protrusion 21 is inserted into the strip-shaped groove 161 and can move horizontally along the strip-shaped groove 161.

In addition, the movable shoe body 2 extends with one or more sliding blocks 23, the number of the track 163, the through hole 164, the strip-shaped fixture block 165 and the sliding block 23 in this embodiment is two, but not limited thereto, each sliding block 23 has a straight section 231 and a transverse section 232 extending from the bottom end of the straight section 231, each straight section 231 movably penetrates through each track 163, each transverse section 232 can be stopped or separated from each through hole 164 by each strip-shaped fixture block 165, so that the movable shoe body 2 can stably slide relative to the fixed shoe body 1, or the movable shoe body 2 can be detached from the fixed shoe body 1.

Furthermore, the movable shoe body 2 of the present embodiment is a toe cap 20, but not limited to this, the movable shoe body 2 can also be a heel cap or a body cap.

As shown in fig. 1 to 10, the pressing member 3 is movably assembled to the fixed shoe body 1 and partially exposed out of the fixed shoe body 1, the pressing member 3 has a recess 31 and a first sidewall 32 and a second sidewall 33 located at two opposite sides of the recess 31, and the protrusion 21 is movably received in the recess 31.

In addition, the depressible member 3 is accommodated in the receiving cavity 11, a shaft 321 extends from an outer side of the first sidewall 32, a depressible block 331 movably disposed through the transparent opening 12 is disposed from an outer side of the second sidewall 33, the depressible block 331 is provided with a plurality of notches 332, each of the stop blocks 13 can be embedded in each of the notches 332 and stopped by the depressible block 331, thereby preventing the depressible block 331 from being separated from the transparent opening 12.

The depressible block 331 is an L-shaped block 333, but not limited thereto, and the L-shaped block 333 is close to the shape of the thumb of the human body to facilitate the pressing of the thumb.

As shown in fig. 2 to 4 and 7 to 8, the multi-stage locking element 4 includes a row of teeth 41 and a tooth block 42, the row of teeth 41 is disposed on one of the movable shoe body 2 and the pressing member 3, the tooth block 42 is disposed on the other of the movable shoe body 2 and the pressing member 3, the row of teeth 41 has a plurality of convex teeth, and the tooth block 42 has one or more convex teeth.

As further described below, the row of teeth 41 is formed by extending from one of the projection 21 and the inner side of the first sidewall 32, and the tooth block 42 is formed by extending from the other of the projection 21 and the inner side of the first sidewall 32. The row teeth 41 of the present embodiment are formed by extending from the protrusion 21, and the tooth block 42 is formed by extending from the inner side of the first sidewall 32, but not limited thereto.

As shown in fig. 2 to 4 and 7 to 8, the elastic element 5 is elastically supported between the fixed shoe body 1 and the depressible member 3 and drives the depressible member 3 to approach the movable shoe body 2, so that the row of teeth 41 and the tooth block 42 are engaged with each other, and the movable shoe body 2 cannot move relative to the fixed shoe body 1. The tooth block 42 of the present embodiment has a plurality of protruding teeth, so that the engagement between the row of teeth 41 and the tooth block 42 is more stable.

As described in detail below, the elastic element 5 is embedded in the positioning slot 14 and sleeved on the shaft 321, such that the elastic element 5 is elastically supported between the fixed shoe body 1 and the outer side of the first sidewall 32, thereby driving the pressing element 3 to move toward the protrusion 21 of the movable shoe body 2.

Wherein, the depressible member 3 will be away from the movable shoe body 2 when being depressed, so that the engagement between the row teeth 41 and the tooth block 42 is separated, and the movable shoe body 2 can move relative to the fixed shoe body 1.

As shown in fig. 1 to 2, 6 and 10, the shoe body structure 10 of the present invention further includes one or more locking elements 6, the number of the locking holes 162, the number of the long holes 22 and the number of the locking elements 6 are two, but not limited thereto, each locking element 6 is inserted into each long hole 22 and is locked to each locking hole 162, so that the movable shoe body 2 can be movably assembled to the fixed shoe body 1. Wherein each locking member 6 is a screw, but not limited thereto.

In addition, when each transverse section 232 slides to each through hole 164, each locking element 6 is detached from each locking hole 162, so that each transverse section 232 can be smoothly detached from each through hole 164, and the movable shoe body 2 is detached from the fixed shoe body 1.

As shown in Figs. 3 to 10, the shoe body structure 10 of the present invention is in a use state. First, as shown in fig. 3 to 6, when the pressable member 3 is not pressed, the elastic element 5 is elastically supported between the fixed shoe body 1 and the pressable member 3 and drives the pressable member 3 to approach the movable shoe body 2, so that the row of teeth 41 and the tooth block 42 are engaged with each other, and the movable shoe body 2 cannot move relative to the fixed shoe body 1 to fix the distance from the movable shoe body 2 to the fixed shoe body 1; furthermore, as shown in fig. 7 to 10, when the pressing member 3 is pressed, the pressing member 3 compresses the elastic element 5 and drives the pressing member 3 to move away from the movable shoe body 2, so as to separate the row of teeth 41 and the tooth block 42, so that the movable shoe body 2 can move relative to the fixed shoe body 1 to adjust the distance from the movable shoe body 2 to the fixed shoe body 1, thereby adjusting the size of the shoe body structure 10, and making the single shoe body structure 10 suitable for people of various ages, so as to achieve the advantage that the shoe body structure 10 is convenient for adjusting the size.

In addition, the row teeth 41 have a plurality of convex teeth, and with the increase of the number of the convex teeth of the row teeth 41 and the reduction of the distance, the size adjustment of more stages can be achieved, so as to achieve the characteristic of multi-stage size adjustment of the shoe body structure 10.

The present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be effected therein by one skilled in the art without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (10)

1. A shoe body construction of adjustable size, comprising:

a fixed shoe body;

a movable shoe body movably assembled with the fixed shoe body;

the pressable piece is movably assembled and connected with the fixed shoe body and partially exposed out of the fixed shoe body;

a multi-section locking component, which comprises a row of teeth and a tooth block, wherein the row of teeth is arranged on one of the movable shoe body and the pressing piece, and the tooth block is arranged on the other of the movable shoe body and the pressing piece; and

the elastic element is elastically supported between the fixed shoe body and the pressable piece and drives the pressable piece to approach the movable shoe body so as to mutually clamp the row of teeth and the tooth block;

wherein, the pressable piece can be far away from the movable shoe body when being pressed, so that the row of teeth and the tooth block are separated from each other.

2. The adjustable shoe structure of claim 1 wherein the movable shoe body has a projection extending therefrom, the depressible member has a recess and has a first side wall and a second side wall on opposite sides of the recess, the projection is movably received in the recess, the row of teeth is formed by extending from one of the projection and the inner side of the first side wall, and the tooth block is formed by extending from the other of the projection and the inner side of the first side wall.

3. The adjustable shoe structure of claim 2, wherein the fixed shoe body has a cavity and a through opening communicating with the cavity, the depressible member is received in the cavity, the outer side of the second sidewall has a depressible block movably disposed through the through opening, and the elastic member is elastically supported between the fixed shoe body and the outer side of the first sidewall.

4. The adjustable shoe structure of claim 3, wherein the fixed shoe body has a plurality of extended stop blocks located inside the transparent opening, the compressible block has a plurality of notches, and each stop block can be inserted into each notch and stop against the compressible block.

5. The adjustable shoe structure of claim 3, wherein the compressible block is an L-shaped block.

6. The adjustable shoe structure of claim 3, wherein the fixed shoe body has a positioning groove extending therein, and a shaft rod extending outside the first sidewall, wherein the elastic element is embedded in the positioning groove and sleeved on the shaft rod.

7. The shoe body structure of claim 3, wherein the fixed shoe body comprises a shoe base and a shoe pad plate fixedly connected to the top of the shoe base, the cavity is formed by recessing from the top of the shoe base, the shoe pad plate is provided with a strip-shaped groove communicated with the cavity and corresponding to the groove, and the protrusion is disposed through the strip-shaped groove and can move horizontally along the strip-shaped groove.

8. The adjustable shoe structure of claim 7 further comprising at least one locking element, wherein the insole board has at least one locking hole, the movable shoe body has at least one elongated hole, and the locking element is inserted through the elongated hole and locked in the locking hole.

9. The structure of shoes with adjustable size as claimed in claim 8, wherein the insole board has at least one rail, at least one through hole and at least one strip-shaped block, the through hole and the strip-shaped block are located at one side of the rail, the through hole is located at one end of the strip-shaped block, the movable shoe body extends at least one sliding block, the sliding block has a straight section and a transverse section extending from the bottom end of the straight section, the straight section is movably inserted through the rail, and the transverse section can be stopped or separated from the through hole by the strip-shaped block.

10. The adjustable shoe structure of claim 1 wherein said movable shoe is a toe cap.

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