CN212728988U - Water-proof and anti-skid shoes for ice surface - Google Patents

Abstract

The utility model discloses a pair of ice surface waterproof and antiskid shoes, which comprises a waterproof layer, an upper body and an antiskid sole with antiskid nails at the bottom; the upper body comprises an upper and a lower upper, and the upper is connected with the lower upper; the lower shoe upper is arranged on the anti-skid sole; one end of the waterproof layer is arranged at the joint of the lower upper and the anti-skidding sole, the other end of the waterproof layer extends into the upper, and the upper edge of the waterproof layer is higher than the upper edge of the lower upper and lower than the upper edge of the upper. The utility model discloses have good waterproof and non-slip properties, be applicable to the ice surface walking more.

Description

Water-proof and anti-skid shoes for ice surface

Technical Field

The utility model relates to an outdoor shoes field especially indicates a waterproof antiskid shoes of ice surface.

Background

The friction between the ice surface and the sole is small when the shoe is walked on the ice surface, so that the shoe is easy to slip, and the problem that the interior of the shoe is easy to become wet due to the fact that water vapor rises and adheres to the surface of the shoe when the shoe is walked on the ice surface is solved, so that the specific waterproof and anti-slip shoe is needed when the shoe is walked on the ice surface. The existing antiskid shoes are usually provided with antiskid protrusions on soles, the materials of the antiskid protrusions are usually the same as those of the soles or adopt other wear-resistant materials, and the soles of the structures generally have good antiskid performance when used on pavements, mountaineering or smooth floors, but are not suitable for ice surfaces or ice grounds. And the existing antiskid shoes generally do not have waterproof performance and are not suitable for being used on ice or snow.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: provides a pair of ice surface waterproof and antiskid shoes, which improves the waterproof performance of soles.

In order to solve the technical problem, the utility model discloses a technical scheme be:

a pair of ice surface waterproof and antiskid shoes comprises a waterproof layer, an upper and an antiskid sole with antiskid nails at the bottom;

the upper comprises an upper and a lower upper, and the upper is connected with the lower upper;

the lower shoe upper is arranged on the anti-skid sole;

one end of the waterproof layer is arranged at the joint of the lower upper and the anti-skidding sole, the other end of the waterproof layer extends into the upper, and the upper edge of the waterproof layer is higher than the upper edge of the lower upper and lower than the upper edge of the upper.

Further, the waterproof layer is a waterproof sock cover.

Furthermore, a containing space is formed between the upper and the anti-skidding sole, and the waterproof layer is attached to the inner wall of the containing space.

Furthermore, a plurality of anti-skid nails are respectively arranged on the inner side and the outer side of the bottom of the anti-skid sole.

Further, the anti-skid stud comprises a first stud body and a second stud body;

the first nail body is connected with the anti-skid sole through the second nail body;

the axis of the first nail body coincides with the axis of the second nail body, and the diameter of the first nail body is smaller than that of the second nail body.

Furthermore, the second nail body is embedded in the anti-skid sole.

Furthermore, the anti-skidding sole is an integrated rubber sole.

Furthermore, the maximum thickness of the anti-skid sole in the heel area is 20-24 mm, and the maximum thickness of the anti-skid sole in the front sole area is 12-14.5 mm.

The beneficial effects of the utility model reside in that: the anti-skid sole with the anti-skid nails at the bottom is used for improving the overall anti-skid performance of the shoe, and the waterproof layer is arranged in the upper and used for improving the waterproof performance of the upper; because the people is when walking on the ice surface, steam goes upward, steam permeates to inside the upper of a shoe easily after being attached to the upper of a shoe outside, and probably have liquid water on the ice surface and the walking in-process or trampled liquid water, probably cause the inside humidity of upper of a shoe, consequently the lower edge of waterproof layer is located the junction of lower upper of a shoe and anti-skidding sole, avoid the shoes body to step on behind the liquid water, liquid water permeates from the junction of lower upper of a shoe and anti-skidding sole, and the last edge of waterproof layer is higher than the last edge of lower upper of a shoe, can avoid liquid water to be trampled after splash and attached to the upper of a shoe outward appearance, lead to the inside of upper of a shoe to be soaked.

Drawings

FIG. 1 is a schematic structural view of a pair of ice waterproof and antiskid shoes according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of a pair of ice waterproof and anti-slip shoes according to an embodiment of the present invention;

fig. 3 is a schematic structural view of an anti-slip sole according to an embodiment of the present invention;

FIG. 4 is a cross-sectional view taken along the line A-A in FIG. 3;

FIG. 5 is a right side view of FIG. 3;

fig. 6 is a schematic structural view of the rubber support block and the stud according to the embodiment of the present invention.

Description of reference numerals:

1. a waterproof layer;

2. an upper body; 21. putting on the upper; 22. a lower upper;

3. an anti-slip sole; 31. a forefoot region; 32. a rear heel region; 33. a rubber support block; 311. a first row; 312. a second row; 313. a third row; 314. a fourth row; 315. the fifth element; 321. a sixth row; 322. a seventh row; 323. an eighth row;

4. anti-skid nails; 41. a first nail body; 42. a second nail body;

5. an accommodation space.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 6, an ice waterproof and anti-slip shoe includes a waterproof layer, an upper body, and an anti-slip sole with anti-slip nails at the bottom;

the upper body comprises an upper and a lower upper, and the upper is connected with the lower upper;

the lower shoe upper is arranged on the anti-skid sole;

one end of the waterproof layer is arranged at the joint of the lower upper and the anti-skidding sole, the other end of the waterproof layer extends into the upper, and the upper edge of the waterproof layer is higher than the upper edge of the lower upper and lower than the upper edge of the upper.

The utility model discloses a theory of operation lies in:

the waterproof layer is additionally arranged in the upper so as to improve the waterproof performance of the shoe, and the upper edge of the waterproof layer is positioned in the upper, so that the sole of a user can be completely wrapped, and the waterproof performance is improved.

From the above description, the beneficial effects of the present invention are: the anti-skid sole with the anti-skid nails at the bottom is used for improving the overall anti-skid performance of the shoe, and the waterproof layer is arranged in the upper and used for improving the waterproof performance of the upper; because the people is when walking on the ice surface, steam goes upward, steam permeates to inside the upper of a shoe easily after being attached to the upper of a shoe outside, and probably have liquid water on the ice surface and the walking in-process or trampled liquid water, probably cause the inside humidity of upper of a shoe, consequently the lower edge of waterproof layer is located the junction of lower upper of a shoe and anti-skidding sole, avoid the shoes body to step on behind the liquid water, liquid water permeates from the junction of lower upper of a shoe and anti-skidding sole, and the last edge of waterproof layer is higher than the last edge of lower upper of a shoe, can avoid liquid water to be trampled after splash and attached to the upper of a shoe outward appearance, lead to the inside of upper of a shoe to be soaked.

Further, the waterproof layer is a waterproof sock cover.

As can be seen from the above description, the waterproof layer is a waterproof sock cover, so that the sole of a user can be completely covered by the waterproof layer, and the waterproof performance is improved.

Furthermore, a containing space is formed between the upper and the anti-skidding sole, and the waterproof layer is attached to the inner wall of the containing space.

As can be seen from the above description, the waterproof layer is attached to the inner wall of the accommodating space, so as to ensure that the sole of the foot of the user is not in contact with moisture all the time.

Furthermore, a plurality of anti-skid nails are respectively arranged on the inner side and the outer side of the bottom of the anti-skid sole.

According to the description, the main force application points are positioned at the inner side and the outer side of the bottom of the anti-skid sole during the walking process of the sole of a human body, so that the inner side and the outer side of the bottom of the anti-skid sole are respectively provided with the plurality of anti-skid nails, the contact point of the sole and an ice surface is changed, the anti-skid effect is improved, and the anti-skid performance of the anti-skid sole is exerted to the maximum extent.

Further, the anti-skid stud comprises a first stud body and a second stud body;

the first nail body is connected with the anti-skid sole through the second nail body;

the axis of the first nail body coincides with the axis of the second nail body, and the diameter of the first nail body is smaller than that of the second nail body.

According to the description, the anti-skid nail is composed of two nail bodies with different diameters, so that the attaching degree of the anti-skid nail and the ground is improved, the two nail bodies can be made of metal materials with different flexibility degrees, and the service life can be prolonged.

Furthermore, the second nail body is embedded in the anti-skid sole.

As can be seen from the above description, the second nail body is embedded in the anti-skid sole, so that the connection stability between the whole anti-skid nail and the anti-skid sole can be improved.

Furthermore, the anti-skidding sole is an integrated rubber sole.

Furthermore, the thickness of the anti-skid sole in the heel area is 20-24 mm, and the thickness of the anti-skid sole in the front sole area is 12-14.5 mm.

According to the above description, the anti-slip sole is the integrated rubber sole, the thickness of the anti-slip sole is smaller than that of the existing anti-slip sole, the elasticity of the sole can be increased, the wear resistance between the sole and an ice surface is improved, when the anti-slip studs are grounded, the anti-slip sole rebounds and retracts under stress, and the ground-holding force on the ice surface is larger.

In the present embodiment, it should be understood that the medial side of the forefoot region 31 refers to the right side in fig. 1, and the lateral side of the forefoot region 31 refers to the left side in fig. 1.

Example one

Referring to fig. 1-6, an ice waterproof and antiskid shoe comprises a waterproof layer 1, an upper body 2 and an antiskid sole 3 with antiskid nails 4 at the bottom; the upper body 2 comprises an upper 21 and a lower 22, the upper 21 is connected with the lower 22; the lower upper 22 is arranged on the anti-skid sole 3; one end of the waterproof layer 1 is arranged at the joint of the lower upper 22 and the anti-skid sole 3, the other end extends into the upper 21, and the upper edge of the waterproof layer 1 is higher than the upper edge of the lower upper 22 and lower than the upper edge of the upper 21. Preferably, the upper of a shoe adopts waterproof surface fabric, and waterproof layer 1 is waterproof ankle socks, and specifically, waterproof ankle socks comprise TPU waterproof adhesive tape and two TPU waterproof membranes hot-blast pressfitting.

Referring to fig. 2, a receiving space 5 is formed between the upper body 2 and the anti-slip sole 3, and the waterproof layer 1 is attached to an inner wall of the receiving space 5. Preferably, the waterproof layer 1 is adhered to the inner wall of the accommodating space 5.

Example two

Referring to fig. 3, a plurality of anti-slip nails 4 are respectively installed at the inner and outer sides of the anti-slip sole 3. While the bottom of the anti-slip sole 3 comprises a forefoot area 31 and a heel area 32.

Referring to fig. 3, the plurality of cleats 4 are arranged longitudinally in two rows on the inner side of forefoot region 31, and the plurality of cleats 4 in the two rows form an L-shape.

Referring to fig. 3, a plurality of cleats 4 are arranged longitudinally in three rows on the outer side of forefoot region 31, and n, (n-1) and (n +1) cleats are provided on the three rows of cleats 4 from the outside to the inside, respectively.

Preferably, n is equal, i.e. there are two, one and three of the three rows of studs 4, respectively, from the outside inwards.

Referring to FIG. 3, (n +1) cleats 4 are located on an end of forefoot region 31 distal from heel region 32. Specifically, three cleats 4 are positioned at an end of forefoot region 31 distal from heel region 32.

Referring to FIG. 3, a plurality of cleats 4 positioned on the medial and lateral sides of heel region 32 are each aligned longitudinally.

Referring to fig. 6, the stud 4 comprises a first shank 41 and a second shank 42; the first nail body 41 is connected with the anti-skid sole 3 through the second nail body 42; the axis of the first nail body 41 coincides with the axis of the second nail body 42, and the diameter of the first nail body 41 is smaller than that of the second nail body 42. The first nail body 41 is made of common steel, and the second nail body 42 is made of tungsten steel. Wherein the part with the dotted circle in the figure is the cleat 4.

Referring to fig. 5 and 6, the second spike body 42 is embedded in the anti-slip sole 3. Preferably, the anti-slip sole 3 is a one-piece rubber sole. The anti-skid sole 3 further comprises a plurality of rubber supporting blocks 33, and the second nail bodies 42 are embedded in the rubber supporting blocks 33. Specifically, the second nail body 42 is vulcanized with the non-slip sole 3 into a whole through the bridging agent.

Referring to fig. 3, the plurality of rubber support blocks 33 located in the forefoot region 31 are arranged laterally to form five rows, and the front sole region 31 is arranged in sequence in a direction toward the heel region 32, wherein, on the outer side of the front sole region 31, the studs 4 in one row are located in the rubber support blocks 33 of the fifth row 315 of the front sole region 31, the studs 4 in two rows are located in the rubber support blocks 33 of the third row 313 and the fourth row 314, respectively, and the studs 4 in three rows are located in the rubber support blocks 33 of the first row 311, the second row 312 and the third row 313, respectively. In the direction from the outside to the inside on the inner side of the forefoot area 31, four studs 4 are arranged in one row 4, four studs 4 are arranged in the rubber support blocks 33 of the first, second, third and fourth rows 311, 312, 313 and 314, respectively, and the other row 4 is arranged adjacent to the studs 4 in one row and in the rubber support block 33 of the fourth row 314.

The plurality of rubber support blocks 33 located in the rear heel area 32 are arranged transversely to form three rows, the front sole area 31 is arranged in sequence in a direction towards the rear heel area 32, the seventh row 322 and the eighth row 323 on the inner side of the rear heel area 32 are respectively provided with one anti-skid nail 4, and the sixth row 321, the seventh row 322 and the eighth row 323 on the outer side of the rear heel area 32 are respectively provided with one anti-skid nail 4.

Referring to fig. 4, the maximum thickness of the anti-slip sole 3 in the rear heel area 32 is 20mm to 24mm, preferably 20mm, 21mm or 21.5 mm; the maximum thickness of the anti-skid sole 3 in the forefoot area 31 is 12mm to 14.5mm, preferably 12mm, 13mm or 13.5 mm.

In summary, the waterproof layer is additionally arranged in the shoe body of the ice-surface waterproof and antiskid shoe provided by the utility model, so that the waterproof performance of the shoe is improved, and the phenomenon that the sole of a foot is wetted by moisture in the ice-surface walking process of a user to influence the user experience is avoided; the distribution rule of the anti-skid nails of the existing anti-skid sole is changed, the anti-skid nails are arranged in the main stress area of the sole, the utilization rate of the anti-skid nails is improved, the optimal performance of the anti-skid nails is exerted, and the anti-skid performance of the sole is further improved, so that the anti-skid shoe is more suitable for being used on ice; the anti-skid nails are made of two metal materials with different flexibilities, so that the wear resistance of the anti-skid nails is improved, and the service life of the anti-skid nails is prolonged.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (8)

1. A pair of ice surface waterproof and antiskid shoes is characterized by comprising a waterproof layer, an upper body and an antiskid sole with antiskid nails at the bottom;

the upper body comprises an upper and a lower upper, and the upper is connected with the lower upper;

the lower shoe upper is arranged on the anti-skid sole;

one end of the waterproof layer is arranged at the joint of the lower upper and the anti-skidding sole, the other end of the waterproof layer extends into the upper, and the upper edge of the waterproof layer is higher than the upper edge of the lower upper and lower than the upper edge of the upper.

2. The ice waterproof and antiskid shoe of claim 1, wherein the waterproof layer is a waterproof sock.

3. The ice waterproof and antiskid shoe of claim 1, wherein a receiving space is formed between the upper body and the antiskid sole, and the waterproof layer is attached to the inner wall of the receiving space.

4. The water-proof and skid-proof ice shoe as claimed in claim 1, wherein a plurality of said studs are respectively installed on the inner and outer sides of the bottom of said skid-proof sole.

5. The waterproof and non-slip skate of claim 1 wherein the cleat comprises a first shank and a second shank;

the first nail body is connected with the anti-skid sole through the second nail body;

the axis of the first nail body coincides with the axis of the second nail body, and the diameter of the first nail body is smaller than that of the second nail body.

6. The water-proof and skid-proof ice shoe as claimed in claim 5, wherein said second spike is embedded in said skid-proof sole.

7. The water-proof and skid-proof ice shoe as claimed in claim 1, wherein the skid-proof sole is a one-piece rubber sole.

8. The water-proof and skid-proof ice shoe as claimed in claim 1, wherein the maximum thickness of the skid-proof sole in the heel area is 20 mm-24 mm, and the maximum thickness of the skid-proof sole in the forefoot area is 12 mm-14.5 mm.

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