U.S. patent application number 16/889158 was filed with the patent office on 2021-12-02 for non-slippery outsole article.
The applicant listed for this patent is JIA HAO PLASTICS FACTORY CO., LTD.. Invention is credited to Meng-Lin KO.
Application Number | 20210368939 16/889158 |
Document ID | / |
Family ID | 1000004883764 |
Filed Date | 2021-12-02 |
United States Patent
Application |
20210368939 |
Kind Code |
A1 |
KO; Meng-Lin |
December 2, 2021 |
NON-SLIPPERY OUTSOLE ARTICLE
Abstract
A non-slippery outsole article comprises a first sole and a
plurality of slip-resistant blocks. The first sole has two opposite
sections, a top section in contact with a shoe body and a bottom
section in contact with ground. The slip-resistant blocks are
mounted in partition at the bottom section of the first sole, a
plurality of protrusions being mounted on the top section of the
first sole. The slip-resistant blocks are made of rubber and have a
rough surface capable of slip resistance.
Inventors: |
KO; Meng-Lin; (Puyan
Township, TW) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
JIA HAO PLASTICS FACTORY CO., LTD. |
Puyan Township |
|
TW |
|
|
Family ID: |
1000004883764 |
Appl. No.: |
16/889158 |
Filed: |
June 1, 2020 |
Current U.S.
Class: |
1/1 |
Current CPC
Class: |
A43B 13/22 20130101 |
International
Class: |
A43B 13/22 20060101
A43B013/22 |
Claims
1. A non-slippery outsole article, comprising: a first sole and a
plurality of slip-resistant blocks; wherein the first sole has two
opposite sections, a top section and a bottom section; wherein the
slip-resistant blocks are mounted in partition on the bottom
section of the first sole; wherein the slip-resistant blocks have a
rough surface.
2. The non-slippery outsole article according to claim 1, wherein
the first sole and the slip-resistant blocks are made of rubber,
wherein the hardness of the slip-resistant blocks is greater than
the hardness of the first sole.
3. The non-slippery outsole article according to claim 1, wherein a
plurality of protrusions are mounted on the top section of the
first sole.
4. The non-slippery outsole article according to claim 1, wherein a
stopper and the slip-resistant blocks are mounted in partition on
the first sole.
5. The non-slippery outsole article according to claim 1, wherein a
limit portion is mounted in a circumferential direction around the
edge of the first sole.
6. The non-slippery outsole article according to claim 4, wherein
the stopper and the limit portion are made of plastic, wherein the
hardness of the stopper is greater than the hardness of the
slip-resistant blocks, wherein the hardness of the limit portion is
greater than the hardness of the slip-resistant blocks.
7. The non-slippery outsole article according to claim 1, wherein
an elastic front strip and an elastic rear strip are deployed at
the opposite ends of the first sole.
8. The non-slippery outsole article according to claim 1, wherein
the first sole is deployed with an annular elastic strip.
9. The non-slippery outsole article according to claim 1, wherein
the non-slippery outsole article comprises a second sole, wherein
the second sole has two opposite sections, a top section and a
bottom section, wherein a plurality of slip-resistant blocks and a
stopper mounted in partition on the bottom section of the second
sole, wherein the slip-resistant blocks are made of rubber and have
a rough surface.
10. The non-slippery outsole article according to claim 9, wherein
a plurality of elastic strips are respectively attached to the
first sole and the second sole in help of forming the non-slippery
outsole article.
Description
BACKGROUND
Technical Field
[0001] The present disclosure relates to an outsole for footwear,
and more particularly, to a non-slippery outsole article.
Related Art
[0002] Non-slippery article deployed with cleats at the outsole
capable of slip resistance is commonly used in the icefield and
snowfield. However, the exposed cleats of the non-slippery outsole
are easily hurt the others or the user themselves. Besides, the
friction happens between the outsole and the ice field tend to wear
off the cleats, for this reason, a frequent replacement of the
outsole article is necessary.
SUMMARY
[0003] In view of the shortcomings and defects of the existing
non-slippery outsole article, the present disclosure is directed to
a safe, durable, and slip-resistant outsole article and features in
various aspects to solve the above problems.
[0004] The present disclosure provides a non-slippery outsole
article, comprising a first sole and a plurality of slip-resistant
blocks. The first sole has two opposite sections, a top section in
contact with a shoe body and a bottom section in contact with
ground. The slip-resistant blocks are mounted in partition at the
bottom section of the first sole. A plurality of protrusions are
mounted on the top section of the first sole. The slip-resistant
blocks have a rough surface capable of slip resistance and
durability. The first sole and the slip-resistant blocks are made
of rubber. The hardness of the slip-resistant blocks is greater
than the hardness of the first sole.
[0005] In some embodiments, an elastic front strip and an elastic
rear strip are deployed at the opposite ends of the first sole
forming the non-slippery outsole article.
[0006] In some embodiments, a stopper and slip-resistant blocks are
mounted in partition of the first sole. A limit portion is mounted
in a circumferential direction around the edge of the first sole.
When the first sole is being forced, the stopper avoids the
slip-resistant blocks being deviated and deformed, and the limit
portion impedes the first sole being influenced from the pressure
generated by the force. The stopper and the limit portion are made
of plastic. The hardness of the stopper is greater than the
hardness of the slip-resistant blocks. The hardness of the limit
portion is greater than the hardness of the slip-resistant
blocks.
[0007] In some embodiments, the elastic strip is attached to the
first sole to form the non-slippery outsole article.
[0008] In some embodiments, the non-slippery outsole article
comprises a second sole deployed with a plurality of elastic
strips. The elastic strips are attached to the first sole and the
second sole respectively to form the non-slippery outsole article.
A plurality of protrusions are mounted on the top section of the
second sole. A plurality of slip-resistant blocks and the stopper
are mounted in partition to the bottom section of the second sole.
The slip-resistant blocks are made of rubber and have a rough
surface. A limit portion is mounted in a circumferential direction
around the edge of the second sole. The stopper and the limit
portion serve to avoid the slip-resistant blocks being deviated and
deformed.
BRIEF DESCRIPTION OF THE DRAWINGS
[0009] FIG. 1. illustrates a bottom view according to the first
embodiment of the instant disclosure;
[0010] FIG. 2. illustrates a top view according to the first
embodiment of the instant disclosure;
[0011] FIG. 3. illustrates a bottom view according to the second
embodiment of the instant disclosure;
[0012] FIG. 4. illustrates a side view according to the second
embodiment of the instant disclosure;
[0013] FIG. 5. illustrates a top view according to the second
embodiment of the instant disclosure;
[0014] FIG. 6. illustrates a bottom view according to the third
embodiment of the instant disclosure;
[0015] FIG. 7. illustrates a top view according to the third
embodiment of the instant disclosure;
[0016] FIG. 8. illustrates a side view according to the third
embodiment of the instant disclosure.
DETAILED DESCRIPTION
[0017] In order to better understand the present disclosure, the
present disclosure will be described more fully with reference to
the accompanying drawings. The drawings show a preferred embodiment
of the disclosure. However, the present disclosure is implemented
in many different forms and is not limited to the embodiments
described below.
[0018] Please refer to FIG. 1 and FIG. 2, a non-slippery outsole
article comprises a first sole (10) and a plurality of
slip-resistant blocks (20). The first sole (10) has two opposite
sections, a top section in contact with a shoe body and a bottom
section in contact with ground. The slip-resistant blocks (20) are
mounted in partition to the bottom section of the first sole (10).
A plurality of protrusions (11) are mounted on the top section of
the first sole (10). The first sole (10) and the slip-resistant
blocks (20) are made of rubber. The hardness of the slip-resistant
blocks (20) is greater than the hardness of the first sole
(10).
[0019] When the shoe body contacts the top section of the first
sole (10), a plurality of protrusions (11) touch against the shoe
body to provide slip resistance in help of shoe positioning on the
ground. The slip-resistant blocks (20) are made of rubber and have
a rough surface. Compared to the cleats, the slip-resistant blocks
made of rubber are comparatively safer than the slip-resistant
anchored by cleats to the wearers. In addition, the rubber material
has characteristics of low temperature, durability, slip
resistance, and anti-friction. The non-slippery outsole article
provides slip resistance against the ground covered by ice or
snow.
[0020] An elastic front strip (41) and an elastic rear strip (42)
are deployed at the opposite ends of the first sole (10) forming
the non-slippery outsole article. The elastic front strip (41) and
the elastic rear strip (42) serve to position the non-slippery
outsole article onto the shoe body by way of sleeving the elastic
front strip (41) to the front end of shoe and the elastic rear
strip (42) at the rear end of shoe.
[0021] Please refer to FIG. 3 to FIG. 5, the second embodiment of
the present disclosure, an elastic strip (51) is attached to the
first sole (10) to form the non-slippery outsole article. The
operation of the non-slippery outsole article is to sleeve the
opposite ends of the elastic strip (51) at the front end of shoe
and the rear end of the shoe respectively. The first sole (10) has
a limit portion (52) mounted in a circumferential direction around
the edge of the slip-resistant blocks (20), thus, the top section
of the first sole (10) has convex radians in edge-to-center
formation protruding from the bottom section of the first sole
(10). When the first sole (10) touches the ground, the first sole
(10) deforms into a flat shape when under pressure of the body
weight. The limit portion (52), defining the shape of the first
sole (10), lessens the deformation of the pressure generated by the
body weight.
[0022] In the second embodiment of the present disclosure, a
stopper (30) and the slip-resistant blocks (20) are mounted on the
middle section of the first sole (10). When the first sole (10) is
being forced, the stopper (30) avoids the slip-resistant blocks
(20) being deviated and deformed in help of positioning. The
stopper (30) and the limit portion (52) are made of plastic. The
hardness of the stopper (30) is greater than the hardness of the
slip-resistant blocks (20). The hardness of the limit portion (52)
is greater than the hardness of the slip-resistant blocks (20).
[0023] Please refer to FIG. 6 to FIG. 8, the third embodiment of
the present disclosure, the non-slippery outsole article comprises
a second sole (60) deployed with a plurality of elastic strips
(61). The elastic strips (61) are attached to the first sole (10)
and the second sole (20) respectively to form the non-slippery
outsole article. The second sole (60) has two opposite sections, a
top section in contact with a shoe body and a bottom section in
contact with the ground. The top section of the second sole (60)
has convex radians in edge-to-center formation and the bottom
section has a plurality of protrusions (64) distribution. When the
shoe body contacts the top section of the second sole (60), a
plurality of protrusions (64) touch against the shoe body for slip
resistance and positioning concerns. A plurality of slip-resistant
blocks (65) and a stopper (63) are mounted in partition on the
bottom section of the second sole (60). The stopper (63) is mounted
on the middle section of the second sole (60). A limit portion (62)
is mounted in a circumferential direction around the edge of the
second sole (60). When the second sole (60) touches the ground,
pressure generated by the body weight forces the second sole (60)
to deform into a flat shape. The limit portion (62) defines the
shape of the second sole (60) lessening the deformation generated
from the pressure. The stopper (63) avoids the slip-resistant
blocks (65) being deviated and deformed in help of positioning. The
slip-resistant blocks (65) are made of rubber and have a rough
surface. Compared to the cleats, the slip-resistant blocks made of
rubber are comparatively safer than the slip-resistant anchored by
cleats to the wearers. The non-slippery outsole article provides
slip resistance against the ground covered by ice or snow.
[0024] In the third embodiment of the present disclosure, the
non-slippery outsole article comprises a front sleeve and a rear
sleeve. The front sleeve is deployed at the front end of the top
section of the second sole (60). The rear sleeve is deployed at the
rear end of the top section of the first sole (10). The first sole
(10) and the second sole (60) are deployed with a plurality of
cutouts therebetween. The front sheath and the rear sheath are
respectively sleeved at the front end and the rear end of shoe, and
are arranged with a plurality of cutouts in an anatomical
distribution for fitting consideration. The arrangement of cutouts
enables the non-slippery outsole article to couple onto the
wearer's shoe in an unshakable but detachable manners.
* * * * *