CN111955843B

CN111955843B - Anti-smashing rain shoe with vibration reduction function

Info

Publication number: CN111955843B
Application number: CN202010789947.0A
Authority: CN
Inventors: 申乾成; 姜云; 姜辉; 申暮春
Original assignee: Jieshou Xusheng Plastic Products Co ltd
Current assignee: Jieshou Xusheng Plastic Products Co ltd
Priority date: 2020-08-07
Filing date: 2020-08-07
Publication date: 2021-09-07
Anticipated expiration: 2040-08-07
Also published as: CN111955843A

Abstract

The invention relates to the field of anti-smashing rain shoes, in particular to an anti-smashing rain shoe with a vibration reduction function, which comprises a sole, a vamp and a shoe barrel; the damping performance of the sole is enhanced through the multi-layer composite sole structure, the anti-skid performance of the water passing bulge on the water-bearing ground is enhanced, and the use comfort of rain shoes on muddy roads is improved; the shock absorption insole further improves the shock generated when a user steps on the insole, the silica gel cushion layer enhances the fit between the foot of the user and the shock absorption insole, enhances the comfort, and prevents the foot of the user from being pressed against the inner part of the toe cap to cause discomfort by the anti-collision flexible cushion block; the anti-smashing steel bars are connected through the anti-puncture grid, so that the bending performance and the deformation performance of the vamp are not influenced; the user's lower leg is secured to the shaft by elastic bands which prevent moisture or water from entering the interior of the shaft.

Description

Anti-smashing rain shoe with vibration reduction function

Technical Field

The invention relates to the field of anti-smashing rain shoes, in particular to an anti-smashing rain shoe with a vibration reduction function.

Background

In daily life, the shoe is a necessity, which is very important, and provides comfort for people, and also provides safety guarantee for feet of people, especially in special operation environment, the working site is very complicated, especially in emergency rescue environment, workers often suffer from the conditions that the surfaces of feet, backs of feet and toes are injured and punctured by sharp devices or dropped metal objects in the working process, so that the workers in the industries all need to use the shoe with special functions to protect the feet from being injured.

The traditional anti-smashing rain shoes usually achieve the anti-smashing and anti-puncturing effects only by increasing the thickness of the vamp or increasing the steel plate, and after the anti-smashing rain shoes are washed for a long time, the thickness of the vamp is easy to rub off, so that the anti-puncturing effect of the anti-smashing rain shoes is poor; the latter is easy to fatigue because the combination of the sole with the normal bending change is still limited due to the inherent characteristics of high toughness and high elasticity, so that the protection of the sole from injury and the prevention of the foot fatigue are a pair of contradictions which are not easy to solve for the prior rain boots. The existing rain boots do not have the damping function, and are inconvenient to move rapidly when being operated in a complex environment, so that the user can move slowly, the movement is more laborious, and the functionality is poor.

Disclosure of Invention

The invention aims to provide a pair of anti-smashing rain shoes with a vibration reduction function, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a pair of anti-smashing rain shoes with a vibration reduction function comprises soles, vamps and shoe barrels; the sole comprises a fixed base layer, a damping layer and an anti-skidding cross shaft; a rubber cushion layer is arranged above the fixed base layer, an air cushion layer is arranged above the rubber cushion layer, a shock absorption layer is arranged above the air cushion layer, and a composite fixed layer is arranged above the shock absorption layer; a rubber bottom layer is arranged below the fixed base layer, a plurality of water passing bulges are arranged at the bottom of the rubber bottom layer, anti-skidding cross shafts are arranged at the bottoms of the water passing bulges, and waterproof grooves are formed among the water passing bulges;

the composite fixing layer and the side edge of the fixing base layer are compositely connected into a whole, the edge of the composite fixing layer is connected with a vamp, the upper end of the vamp is provided with a connecting opening, and the connecting opening is connected with a shoe barrel; the vamp and the sole form a foot accommodating cavity, the inner edge of the foot accommodating cavity is provided with elastic moisture absorption rings, and moisture absorption particles are arranged in the elastic moisture absorption rings; a damping insole is arranged between the elastic moisture absorption rings, the bottom of the damping insole is pressed with the elastic moisture absorption rings, and an anti-collision flexible cushion block is arranged at the front end of the damping insole;

an installation cavity is formed in the front end of the vamp, a plurality of smashing-proof steel bars which are uniformly distributed are arranged in the installation cavity, and a puncture-proof grid net is connected between the smashing-proof steel bars; a reinforcing gasket is arranged on the outer side of the front end of the upper, and the bottom of the reinforcing gasket is fixedly attached to the edge of the sole; another elastic moisture absorption ring is arranged above the inner part of the shoe tube, and an elastic band is arranged at the edge of the elastic moisture absorption ring.

Preferably, the air cushion layer comprises a front sole air cushion layer and a rear sole air cushion layer which are respectively fixed at the front end and the rear end of the sole.

Preferably, fixed basic unit is inside to be provided with the strengthening rib, and the crisscross graticule mesh structure that forms of strengthening rib is a whole with fixed basic unit composite connection.

Preferably, the water passing bulges are arc-shaped long convex shaft structures corresponding to the distribution radian of the soles, and the anti-skidding cross shafts are fixedly connected with the water passing bulges in a one-to-one correspondence manner.

Preferably, the resilient moisture absorbing loops are in a loop configuration corresponding to the dimensions of the inner edge of the sole, the resilient moisture absorbing loops being in close proximity to the edges of the foot-receiving chamber.

Preferably, the shock-absorbing insole comprises a flexible substrate and a silica gel cushion layer; an air bag layer is arranged at the upper end of the flexible substrate, a silica gel cushion layer is arranged above the air bag layer, and a skin-friendly moisture absorption layer is arranged above the silica gel cushion layer.

Preferably, a convex arc structure corresponding to the arch of the foot and a concave arc structure corresponding to the half sole are arranged above the silica gel cushion layer.

Preferably, flexible cushion of anticollision one side and the laminating of foot holding chamber front end, the flexible cushion of anticollision opposite side is provided with the indent structure corresponding to toe portion.

Preferably, the smash-proof steel bars are distributed along the arc structure of the vamp, the distance between the smash-proof steel bars is 8-13mm, and the anti-puncture grid is made of elastic alloy materials.

Compared with the prior art, the invention has the beneficial effects that: the damping performance of the sole is enhanced through the multi-layer composite sole structure, the anti-skid performance of the water passing bulge on the water-bearing ground is enhanced, and the use comfort of rain shoes on muddy roads is improved; the shock absorption insole further improves the shock generated when a user steps on the insole, the silica gel cushion layer enhances the fit between the foot of the user and the shock absorption insole, enhances the comfort, and prevents the foot of the user from being pressed against the inner part of the toe cap to cause discomfort by the anti-collision flexible cushion block; the anti-smashing steel bars are connected through the anti-puncture grid, so that the bending performance and the deformation performance of the vamp are not influenced; the user's lower leg is secured to the shaft by elastic bands which prevent moisture or water from entering the interior of the shaft.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the anti-pound steel bar of the present invention;

FIG. 3 is a schematic view of the structure of the vibration insole of the invention.

In the figure: 1. a sole; 101. fixing the base layer; 102. a rubber cushion layer; 103. an air cushion layer; 104. a shock-absorbing layer; 105. compounding a fixed layer; 106. a rubber bottom layer; 107. a water passing bulge; 108. an anti-slip cross shaft; 109. a waterproof groove; 2. a shoe upper; 3. a shoe tube; 4. a foot-receiving cavity; 5. an elastic moisture-absorbing loop; 6. shock-absorbing insoles; 61. a flexible substrate; 62. an air bag layer; 63. a silica gel cushion layer; 64. a skin-friendly moisture-absorbing layer; 7. a flexible anti-collision cushion block; 8. smashing the steel bars; 9. a puncture-proof grid; 10. a reinforcing gasket; 11. and (4) elastic bands.

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.

In the description of the present invention, it should be noted that the terms "vertical", "upper", "lower", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Referring to fig. 1-3, the present invention provides a technical solution: a pair of anti-smashing rain shoes with a vibration reduction function comprises soles 1, vamps 2 and shoe tubes 3; the sole 1 comprises a fixed base layer 101, a shock absorption layer 104 and an anti-skid transverse shaft 108; a rubber cushion layer 102 is arranged above the fixed base layer 101, an air cushion layer 103 is arranged above the rubber cushion layer 102, a shock absorption layer 104 is arranged above the air cushion layer 103, and a composite fixed layer 105 is arranged above the shock absorption layer 104; a rubber bottom layer 106 is arranged below the fixed base layer 101, a plurality of water passing bulges 107 are arranged at the bottom of the rubber bottom layer 106, anti-skidding cross shafts 108 are arranged at the bottoms of the water passing bulges 107, and waterproof grooves 109 are formed among the water passing bulges 107;

the composite fixing layer 105 and the side edge of the fixing base layer 101 are compositely connected into a whole, the edge of the composite fixing layer 105 is connected with the vamp 2, the upper end of the vamp 2 is provided with a connecting opening, and the connecting opening is connected with the shoe barrel 3; the vamp 2 and the sole 1 form a foot accommodating cavity 4, the inner edge of the foot accommodating cavity 4 is provided with elastic moisture absorption ring rings 5, and moisture absorption particles are arranged in the elastic moisture absorption ring rings 5; a damping insole 6 is arranged between the elastic moisture absorption ring rings 5, the bottom of the damping insole 6 is pressed with the elastic moisture absorption ring rings 5, and an anti-collision flexible cushion block 7 is arranged at the front end of the damping insole 6;

an installation cavity is formed in the front end of the vamp 2, a plurality of smashing-proof steel bars 8 which are uniformly distributed are arranged in the installation cavity, and a puncture-proof grid 9 is connected between the smashing-proof steel bars 8; a reinforcing gasket 10 is arranged on the outer side of the front end of the vamp 2, and the bottom of the reinforcing gasket 10 is fixedly attached to the edge of the sole 1; another elastic moisture absorption ring 5 is arranged above the inner part of the shoe tube 3, and elastic bands 11 are arranged at the edges of the elastic moisture absorption ring 5.

Further, the air cushion layer 103 includes a front sole air cushion layer and a rear sole air cushion layer, which are respectively fixed at front and rear corresponding positions on the sole 1.

Further, fixed base course 101 is inside to be provided with the strengthening rib, and the strengthening rib is crisscross to form graticule mesh structure and is a whole with fixed base course 101 composite connection.

Furthermore, the water passing protrusions 107 are arc-shaped long convex shaft structures corresponding to the distribution radian of the sole 1, and the anti-skid transverse shafts 108 are fixedly connected with the water passing protrusions 107 in a one-to-one correspondence manner.

Further, the elastic moisture absorption ring 5 has a ring structure corresponding to the size of the inner edge of the sole 1, and the elastic moisture absorption ring 5 is closely attached to the edge of the foot receiving cavity 4.

Further, the shock-absorbing insole 6 comprises a flexible substrate 61 and a silica gel cushion layer 63; an air bag layer 62 is arranged at the upper end of the flexible substrate 61, a silica gel cushion layer 63 is arranged above the air bag layer 62, and a skin-friendly moisture absorption layer 64 is arranged above the silica gel cushion layer 63.

Further, a convex arc-shaped structure corresponding to the arch of the foot and a concave arc-shaped structure corresponding to the half sole are arranged above the silica gel cushion layer 63.

Furthermore, the flexible cushion of anticollision 7 one side and the laminating of foot holding chamber 4 front end, the flexible cushion of anticollision 7 opposite side is provided with the indent structure corresponding to toe portion.

Furthermore, the smash-proof steel bars 8 are distributed along the radian structure of the vamp 2, the distance between the smash-proof steel bars 8 is 8-13mm, and the puncture-proof grid 9 is made of elastic alloy materials.

The working principle is as follows: the sole 1 comprises a fixed base layer 101, a shock absorption layer 104 and an anti-skid transverse shaft 108; a rubber cushion layer 102 is arranged above the fixed base layer 101, an air cushion layer 103 is arranged above the rubber cushion layer 102, a shock absorption layer 104 is arranged above the air cushion layer 103, and a composite fixed layer 105 is arranged above the shock absorption layer 104; a rubber bottom layer 106 is arranged below the fixed base layer 101, a plurality of water passing bulges 107 are arranged at the bottom of the rubber bottom layer 106, anti-skidding cross shafts 108 are arranged at the bottoms of the water passing bulges 107, and waterproof grooves 109 are formed among the water passing bulges 107; the damping performance of the sole 1 is enhanced through a multi-layer composite sole structure, the vibration suffered by a user when the user steps on the ground is relieved by the air cushion layer 103 and the damping layer 104, the skid resistance of the user when the user steps on the ground with water is enhanced by the water passing bulge 107, and the use comfort of rain shoes on muddy roads is improved;

the composite fixing layer 105 and the side edge of the fixing base layer 101 are compositely connected into a whole, the edge of the composite fixing layer 105 is connected with the vamp 2, the upper end of the vamp 2 is provided with a connecting opening, and the connecting opening is connected with the shoe barrel 3; the vamp 2 and the sole 1 form a foot accommodating cavity 4, the inner edge of the foot accommodating cavity 4 is provided with elastic moisture absorption ring rings 5, and moisture absorption particles are arranged in the elastic moisture absorption ring rings 5; a damping insole 6 is arranged between the elastic moisture absorption ring rings 5, the bottom of the damping insole 6 is pressed with the elastic moisture absorption ring rings 5, and an anti-collision flexible cushion block 7 is arranged at the front end of the damping insole 6; the shock absorption insole 6 comprises a flexible substrate 61 and a silica gel cushion layer 63; an air bag layer 62 is arranged at the upper end of the flexible substrate 61, a silica gel cushion layer 63 is arranged above the air bag layer 62, and a skin-friendly moisture absorption layer 64 is arranged above the silica gel cushion layer 63; the shock generated when a user steps on the shoe pad is further improved through the shock absorption shoe pad 6, the silica gel cushion layer 63 enhances the fit between the foot of the user and the shock absorption shoe pad 6, the comfort is enhanced, and the skin-friendly moisture absorption layer 64 absorbs moisture generated by the sultry of the foot; the anti-collision flexible cushion block 7 prevents the discomfort caused by the top pressure generated by the contact between the foot of the user and the inside of the toe cap, and when the rain boot is worn for too long time or water enters the rain boot carelessly, the elastic moisture absorption ring 5 is helpful for absorbing moisture in the foot accommodating cavity 4;

an installation cavity is formed in the front end of the vamp 2, a plurality of smashing-proof steel bars 8 which are uniformly distributed are arranged in the installation cavity, and a puncture-proof grid 9 is connected between the smashing-proof steel bars 8; the smashing resistance of the vamp is improved through the smashing-proof steel bars 8, the smashing-proof steel bars 8 are connected through the puncture-proof grids 9, the bending performance and the deformation performance of the vamp are not affected, and the use comfort is improved; a reinforcing gasket 10 is arranged on the outer side of the front end of the vamp 2, and the bottom of the reinforcing gasket 10 is fixedly attached to the edge of the sole 1; another elastic moisture absorption ring 5 is arranged above the inner part of the shoe tube 3, and an elastic band 11 is arranged at the edge of the elastic moisture absorption ring 5; the user's lower leg is secured to the shaft 3 by elastic bands 11, where the elastic moisture absorbing loops 5 prevent moisture or water from entering the inside of the shaft 3.

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

1. The utility model provides a prevent pounding rain shoes with damping function which characterized in that: comprises a sole (1), a vamp (2) and a shaft (3); the sole (1) comprises a fixed base layer (101), a shock absorption layer (104) and an anti-skidding transverse shaft (108); a rubber cushion layer (102) is arranged above the fixed base layer (101), an air cushion layer (103) is arranged above the rubber cushion layer (102), a shock absorption layer (104) is arranged above the air cushion layer (103), and a composite fixed layer (105) is arranged above the shock absorption layer (104); a rubber bottom layer (106) is arranged below the fixed base layer (101), a plurality of water passing bulges (107) are arranged at the bottom of the rubber bottom layer (106), anti-skidding transverse shafts (108) are arranged at the bottoms of the water passing bulges (107), and waterproof grooves (109) are formed among the water passing bulges (107);

the composite fixed layer (105) is compositely connected with the side edge of the fixed base layer (101) into a whole, the edge of the composite fixed layer (105) is connected with the vamp (2),

the upper end of the vamp (2) is provided with a connecting opening, and the connecting opening is connected with a shoe barrel (3); the vamp (2) and the sole (1) form a foot accommodating cavity (4), the inner edge of the foot accommodating cavity (4) is provided with elastic moisture absorption ring rings (5), and moisture absorption particles are arranged in the elastic moisture absorption ring rings (5); a damping insole (6) is arranged between the elastic moisture absorption ring rings (5), the bottom of the damping insole (6) is pressed with the elastic moisture absorption ring rings (5),

the front end of the shock absorption insole (6) is provided with an anti-collision flexible cushion block (7); a mounting cavity is formed in the front end of the vamp (2), a plurality of smashing-proof steel bars (8) are uniformly distributed in the mounting cavity, and a puncture-proof grid mesh (9) is connected between the smashing-proof steel bars (8); a reinforcing gasket (10) is arranged on the outer side of the front end of the vamp (2), and the bottom of the reinforcing gasket (10) is fixedly attached to the edge of the sole (1); another elastic moisture absorption ring (5) is arranged above the inner part of the shoe tube (3), and an elastic band (11) is arranged at the edge of the elastic moisture absorption ring (5);

the smashing preventing steel bars (8) are distributed along the radian structure of the vamp (2), the distance between the smashing preventing steel bars (8) is 8-13mm, and the anti-puncturing grid mesh (9) is made of elastic alloy materials.

2. The smashing-proof rain boot with the vibration reduction function as claimed in claim 1, is characterized in that: the air cushion layer (103) comprises a front sole air cushion layer and a rear sole air cushion layer which are respectively fixed at the corresponding positions of the front end and the rear end of the sole (1).

3. The smashing-proof rain boot with the vibration reduction function as claimed in claim 1, is characterized in that: fixed basic unit (101) inside is provided with the strengthening rib, and the strengthening rib is crisscross to form graticule mesh structure and fixed basic unit (101) composite connection and is a whole.

4. The smashing-proof rain boot with the vibration reduction function as claimed in claim 1, is characterized in that: the water passing bulges (107) are arc-shaped long convex shaft structures corresponding to the distribution radians of the soles (1), and the anti-skidding cross shafts (108) are fixedly connected with the water passing bulges (107) in a one-to-one correspondence manner.

5. The smashing-proof rain boot with the vibration reduction function as claimed in claim 1, is characterized in that: the elastic moisture absorption ring (5) is of a ring structure corresponding to the size of the inner edge of the sole (1), and the elastic moisture absorption ring (5) is tightly attached to the edge of the foot accommodating cavity (4).

6. The smashing-proof rain boot with the vibration reduction function as claimed in claim 1, is characterized in that: the shock absorption insole (6) comprises a flexible substrate (61) and a silica gel cushion layer (63); an air bag layer (62) is arranged at the upper end of the flexible substrate (61), a silica gel cushion layer (63) is arranged above the air bag layer (62), and a skin-friendly moisture absorption layer (64) is arranged above the silica gel cushion layer (63).

7. The smashing-proof rain shoe with the vibration reduction function as claimed in claim 6, is characterized in that: a convex arc-shaped structure corresponding to the arch part and a concave arc-shaped structure corresponding to the half sole part are arranged above the silica gel cushion layer (63).

8. The smashing-proof rain boot with the vibration reduction function as claimed in claim 1, is characterized in that: one side of the flexible anti-collision cushion block (7) is attached to the front end of the foot accommodating cavity (4), and the other side of the flexible anti-collision cushion block (7) is provided with a concave structure corresponding to the toe part.