CN110710756A

CN110710756A - Rotary shoelace collecting buckle

Info

Publication number: CN110710756A
Application number: CN201810759989.2A
Authority: CN
Inventors: 洪丽环
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-07-11
Filing date: 2018-07-11
Publication date: 2020-01-21

Abstract

The invention discloses a rotary shoelace collecting buckle which comprises a shoelace box assembly and a rotary face cover, wherein shoelace holes are symmetrically formed in the shoelace box assembly, a shoelace inlet frame of a shoelace bottom box is clamped in the shoelace holes, a round hole is formed in the middle of the shoelace bottom box, an inner gear is fixed on the inner circumferential surface of the top caliber of the shoelace bottom box, a shoelace rotating disk is nested in the round hole, and the shoelace rotating disk comprises a top disk, a bottom disk, a separating shaft assembly and a gear. This rotatory shoelace collection is buckled, when rotatory face lid descends, rotatory drive shoelace rotary disk of rotatory face lid rotates, the shoelace rotary disk drives the shoelace winding at the pivoted in-process, rotatory gear about all can push down will then rotatory tightening lace rope, thereby shorten the shoelace, adjust suitable length, owing to there is the existence of internal gear, avoid anticlockwise rotation, fix the shoelace, it can loosen the shoelace rope automatically to two sets of gear separation when rotatory face lid is pulled high, simple structure assembly and disassembly simple and easy outward appearance is pleasing to the eye facilitates the use.

Description

Rotary shoelace collecting buckle

Technical Field

The invention relates to a shoelace collecting buckle, in particular to a rotary shoelace collecting buckle.

Background

The hidden shoelaces can be small as a box only by replacing the shoelaces with small steel wire ropes, and the rotating buckles in the whole market use steel wire ropes instead of shoelaces, because the steel wire ropes are not good-looking for shoes and the steel wire ropes are easy to break when long-term joints are used; the shoelace with the length of 15cm can not be collected by others within the diameter of 30 mm.

Disclosure of Invention

The invention aims to provide a rotary shoelace collecting buckle which is simple in structure, easy to assemble and disassemble, attractive in appearance and convenient to use, and aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a rotary shoelace collecting buckle comprises a shoelace box assembly and a rotary face cover, wherein shoelace holes are symmetrically formed in the shoelace box assembly, shoelace feeding frames of shoelace bottom boxes are clamped in the shoelace holes, a round hole is formed in the middle of each shoelace bottom box, an inner gear is fixed on the inner circumferential surface of the top caliber of each shoelace bottom box, a shoelace rotating disk is nested in the round hole and consists of a top disk, a chassis, a separating shaft assembly and gears, a rotary gear is further installed in a groove formed in the middle of the top disk, the outer circumferential surface of the gear is in contact with the inner gear to avoid anticlockwise rotation, the gears are meshed with the bottom gears, the chassis is respectively provided with a large opening and a small opening, positioning openings are symmetrically formed in the upper cover at the top of the separating shaft assembly, clamping positions are formed at the bottom of the separating shaft assembly, the separating shaft assembly penetrates through the top disk and the chassis in sequence and is fastened with the chassis through the clamping positions, shoelaces penetrating through the large opening and the small, the bottom gear is installed on the drawing belt rotating disk and rotates on the drawing belt rotating disk, a groove position embedded with the upper cover is formed in the circumferential surface of the back of the bottom gear, the positioning ports are clamped on the two sides of the groove position respectively, the separating shaft assembly further penetrates through the middle of the bottom gear, three protruding clamping hooks are further fixed on the drawing belt rotating disk, three clamping grooves extending to protrude from the protrusions are formed in the bottom edge of the rotating face cover, the rotating face cover is connected with the shoelace bottom box through the clamping grooves, three grooves are formed in the rotating face cover, the protruding clamping hooks are hooked with the grooves of the rotating face cover, and the rotating face cover is further fixed with the top of the separating shaft assembly.

Preferably, the diameter of the drawstring rotating disk is set within 30mm, and the drawstring rotating disk is made of POM material.

Preferably, three tooth positions in the bottom gear have a spring function, and the rotating surface cover can drive the shoelace rotating disk to be tightened when rotating.

Preferably, the shoelace head with the diameter of the large opening being 3.5mm is easy to enter, and the shoelace head with the diameter of the small opening being 2.5mm is not easy to fall out.

Preferably, when the rotary surface cover is pulled up and down, the gear and the bottom gear can enable the shoelace rotary disk to be pressed and loosened.

Compared with the prior art, the invention has the beneficial effects that:

this rotatory shoelace collection is buckled, when rotatory face lid descends, rotatory drive shoelace rotary disk of rotatory face lid rotates, the shoelace rotary disk drives the shoelace winding at the pivoted in-process, rotatory gear about all can push down will then rotatory tightening lace rope, thereby shorten the shoelace, adjust suitable length, owing to there is the existence of internal gear, avoid anticlockwise rotation, fix the shoelace, it can loosen the shoelace rope automatically to two sets of gear separation when rotatory face lid is pulled high, simple structure assembly and disassembly simple and easy outward appearance is pleasing to the eye facilitates the use.

Drawings

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is an overall exploded view of the present invention;

FIG. 3 is a top view of the rotating face cover structure of the present invention;

FIG. 4 is a bottom view of the disconnect shaft assembly of the present invention;

FIG. 5 is a bottom view of the drawstring rotating disk of the present invention;

FIG. 6 is a bottom view of the shoelace rotating disk of the present invention;

FIG. 7 is a bottom view of the shoelace holder of the present invention.

In the figure: 1. a lace box assembly; 11. a shoe hole; 2. a rotating surface cover; 3. a shoelace bottom box; 31. the shoelace is put into a frame; 32. a circular hole; 33. an internal gear; 4. a shoelace rotating disc; 41. a top tray; 42. a chassis; 421. a large opening; 422. a small opening; 43. separating the shaft assembly; 431. an upper cover; 4311. positioning the opening; 432. clamping; 44. a gear; 5. a bottom gear; 6. a rotating disc of a pull belt; 61. a hook.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, a rotating shoelace collecting buckle comprises a shoelace box assembly 1 and a rotating surface cover 2, wherein shoelace holes 11 are symmetrically formed in the shoelace box assembly 1, shoelace feeding frames 31 of shoelace bottom boxes 3 are clamped in the shoelace holes 11, and the shoelace feeding frames 31 are formed in the shoelace holes by adopting a rounded corner design so as to enable the shoelace to be fed more smoothly.

Referring to fig. 3, the bottom edge of the rotating surface cover 2 is provided with three extending and protruding slots, the rotating surface cover 2 is connected to the shoelace bottom box 3 through the slots, and is used for clamping the shoelace bottom box 3 and hooking the shoelace bottom box 3, the rotating surface cover 2 can not deflect during rotation and can hook the shoelace bottom box 3 during ascending and descending, the rotating surface cover 2 is internally provided with three grooves, the protruding hooks 61 are hooked with the grooves of the rotating surface cover 2, the rotating surface cover 2 and the drawstring rotating disk 6 can rotate in a linkage manner, the drawstring rotating disk 6 can not loosen during rotation of the rotating surface cover 2, the two components are simply matched and play a main core function, the rotating surface cover 2 is simpler and more practical than other components, the rotating surface cover 2 is fixed to the top of the separating shaft component 43, the rotating surface cover 2 is produced by using a bicolor mold, the inside is produced by a PC transparent material, and the outer frame is produced by a TPR opaque material, the PC material is bulletproof, soft, hard and transparent, and the TPR material is softer, has better hand feeling, is not easy to slip and scratch hands, and can produce various colors more beautiful.

Referring to fig. 4, the upper cover 431 on the top of the separating shaft assembly 43 is symmetrically provided with positioning holes 4311, the bottom of the separating shaft assembly 43 is provided with a clamping position 432, the separating shaft assembly 43 sequentially passes through the top disc 41 and the bottom disc 42 and is fastened with the bottom disc 42 through the clamping position 432, the shoelace passing through the shoelace inlet frame 31 respectively passes through the large opening 421 and the small opening 422 to be fixed with the outer wall of the separating shaft assembly 43, the diameter of the large opening 421 is 3.5mm, the shoelace head is easy to enter, the diameter of the small opening 422 is 2.5mm, the shoelace head is not easy to fall out, the shoelace rotating disc 4 can be driven to be tensioned when the rotating surface cover 2 rotates, the shoelace rotating disc 6 rotates, the circumferential surface of the back of the bottom gear 5 is provided with slots embedded with the upper cover 431, the positioning holes 4311 are respectively clamped at two sides of the rotating disc, the separating shaft assembly 43 also passes through the middle part of the bottom gear 5, the whole shoelace rotating disc is a main function of the shoelace buckle, and the shoelace 4 can be compressed and loosened when the The POM material is hard, tough, wear-resistant, elastic and not easy to deform.

Referring to fig. 5, the diameter of the drawstring rotating disk 6 is set within 30mm, the drawstring rotating disk 6 is made of POM material, three protruding hooks 61 are fixed on the drawstring rotating disk 6, the rotary surface cover 2 can not loosen and can not fall off when pulled up and down when rotating, the bottom gear 5 is installed on the drawstring rotating disk 6, three tooth positions in the bottom gear 5 have spring function to play a role in clamping, the shoelace rotating disk 4 can be driven to be tensioned when the rotary surface cover 2 rotates, and the shoelace rotating disk 4 can be blocked by the shoelace rotating disk.

Referring to fig. 6, when the rotary surface cover 2 is pulled up and down, the gear 44 and the bottom gear 5 can press and loosen the shoelace rotating disc 4, when the rotary surface cover 2 is pulled up and down, the rotary upper and lower gears can press and rotate to tighten the shoelace rope, when the rotary surface cover 2 is pulled up, two groups of gears separate and automatically loosen the shoelace rope, the shoelace rotating disc 4 is composed of a top disc 41, a bottom disc 42, a separating shaft assembly 43 and the gear 44, the rotary gear 44 is further installed in a slot formed in the middle of the top disc 41, the outer circumferential surface of the gear 44 contacts with the inner gear 33 to avoid counterclockwise rotation, the gear 44 is engaged with the bottom gear 5, the bottom disc 42 is respectively provided with a large opening 421 and a small opening 422, the two openings are long for fixing the shoelace rope for weaving, the two openings are designed uniquely, the widths of the large opening 421 and the small opening 422 are 0.8mm far smaller than the diameter of the shoelace rope for weaving 1.5mm, the shoelace rope cannot be pulled, the design is convenient to install and produce, and the shoelace can be produced in batch by a machine only by stretching the shoelace rope into the large groove and then pressing the shoelace head into the small groove and then pulling the shoelace head.

Please refer to fig. 7, a circular hole 32 is formed in the middle of the shoelace bottom box 3, an inner gear 33 is fixed on the inner peripheral surface of the top caliber of the shoelace bottom box 3, a shoelace rotating disk 4 is nested in the circular hole 32, the inner gear 33 above the shoelace bottom box 3 plays a role in clamping to enable the shoelace rotating disk 4 to rotate only clockwise and not rotate anticlockwise to enable the shoelace not to fall back, the shoelace bottom box 3 can be separated to be conveniently used for making shoes by being independently turned on the vamp, then the shoelace rotating collection buckle is finally combined on the finished products of the shoes, when the rotating surface cover 2 descends, the upper gear and the lower gear are rotated to be pressed to tighten the shoelace rope, and when the rotating surface cover 2 is pulled high, the shoelace rope can be automatically loosened by separating the two.

In conclusion, according to the rotating shoelace collecting buckle provided by the invention, when the rotating surface cover 2 descends, the rotating surface cover 2 rotates to drive the shoelace rotating disk 4 to rotate, the shoelace rotating disk 4 drives the shoelace to wind in the rotating process, the upper gear and the lower gear are rotated to press the shoelace rotating disk, and then the shoelace rope is rotated and tightened, so that the shoelace is shortened and adjusted to be in a proper length, due to the existence of the inner gear 33, the shoelace is prevented from rotating anticlockwise and is fixed, when the rotating surface cover 2 is pulled up, the shoelace rope can be automatically loosened by separating the two groups of gears, the structure is simple, the assembly and the disassembly are simple, the appearance is attractive.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a rotatory shoelace collection is detained, includes shoelace box subassembly (1) and rotatory face lid (2), its characterized in that: the shoelace box assembly (1) is symmetrically provided with shoelace holes (11), a shoelace feeding frame (31) of the shoelace bottom box (3) is clamped in the shoelace holes (11), the middle part of the shoelace bottom box (3) is provided with a round hole (32), an inner gear (33) is fixed on the inner circumferential surface of the top caliber of the shoelace bottom box (3), a shoelace rotating disk (4) is nested in the round hole (32), the shoelace rotating disk (4) consists of a top disk (41), a bottom disk (42), a separating shaft assembly (43) and a gear (44), a rotating gear (44) is further installed in a groove position arranged in the middle part of the top disk (41), the outer circumferential surface of the gear (44) is in contact with the inner gear (33) to avoid anticlockwise rotation, the gear (44) is engaged with a bottom gear (5), the bottom disk (42) is respectively provided with a large opening (421) and a small opening (422), an upper cover (431) at the top of the separating shaft assembly, the bottom of the separation shaft component (43) is provided with a clamping position (432), the separation shaft component (43) penetrates through the top disc (41) and the chassis (42) in sequence and is buckled with the chassis (42) through the clamping position (432), shoelaces penetrating through the shoelace feeding frame (31) respectively penetrate through a large opening (421) and a small opening (422) to be fixed with the outer wall of the separation shaft component (43), the bottom gear (5) is installed on the drawstring rotating disc (6) and rotates on the drawstring rotating disc (6), the circumferential surface of the back of the bottom gear (5) is provided with a groove position embedded with the upper cover (431), the positioning ports (4311) are respectively clamped at two sides of the groove position, the separation shaft component (43) also penetrates through the middle part of the bottom gear (5), the drawstring rotating disc (6) is further fixedly provided with three protruding clamping hooks (61), the bottom edge of the rotating face cover (2) is provided with three protruding clamping grooves extending, rotatory face lid (2) meet through draw-in groove and shoelace end box (3), and three recess has been seted up respectively to the inside of rotatory face lid (2), and protrusion pothook (61) catches with the recess of rotatory face lid (2) mutually, and rotatory face lid (2) still is fixed mutually with the top of separating shaft subassembly (43).

2. The rotating shoelace collection buckle as claimed in claim 1, further comprising: the diameter of the drawstring rotating disc (6) is set within 30mm, and the drawstring rotating disc (6) is made of POM materials.

3. The rotating shoelace collection buckle as claimed in claim 1, further comprising: three tooth positions in the bottom gear (5) have a spring function, and the shoelace rotating disc (4) can be driven to be tensioned when the rotating surface cover (2) rotates.

4. The rotating shoelace collection buckle as claimed in claim 1, further comprising: the shoelace head with the diameter of the large opening (421) being 3.5mm is easy to enter, and the shoelace head with the diameter of the small opening (422) being 2.5mm is not easy to fall out.

5. The rotating shoelace collection buckle as claimed in claim 1, further comprising: when the rotating surface cover (2) is pulled up and pulled down, the gear (44) and the bottom gear (5) can enable the shoelace rotating disk (4) to be pressed and loosened.