CN215532063U - High-grip-ability training shoe - Google Patents

Abstract

The utility model belongs to the technical field of shoes, and particularly relates to a high-grip training shoe which comprises a sole and an upper, wherein the sole comprises an anti-skid layer and a buffer layer, the buffer layer is positioned between the anti-skid layer and the upper, a first anti-skid structure, a second anti-skid structure and a third anti-skid structure are arranged on the outer side surface, away from the buffer layer, of the anti-skid layer, the first anti-skid structure comprises a plurality of first anti-skid strips, a first sawtooth groove is formed between every two adjacent first anti-skid strips, the second anti-skid structure comprises a plurality of second anti-skid strips, a second sawtooth groove is formed between every two adjacent second anti-skid strips, the third anti-skid structure comprises a plurality of groups of first bump components, each group of first bump components comprises a first boss, and a first V-shaped groove is formed on the outer side surface, away from the buffer layer, of the first boss. The training shoes can adapt to complex terrains such as slope, muddy, soft mountain road, improve and grab the land fertility, ensure personnel's safety when carrying out special training to promote the comfort level of dressing.

Description

High-grip-ability training shoe

Technical Field

The utility model belongs to the technical field of shoes, and particularly relates to a pair of high-grip training shoes.

Background

In life, shoes are the most direct and effective wearing objects for protecting feet of people, and training shoes are shoes worn by people during special training and aim to protect people.

The special training is usually carried out under the condition of severe environment and complex terrain, but the attachment capacity of the existing training shoes to the ground is small, the phenomenon of easy slipping or accidental slipping is generated when the existing training shoes step on the ground, particularly on a slope and when the existing training shoes are accelerated, braked or subjected to other related impacts, so that personnel are easy to slip and hurt when carrying out the special training, the training safety can not be ensured, and the training effect is poor.

SUMMERY OF THE UTILITY MODEL

In order to achieve the main purpose of the utility model, the utility model provides the training shoes with high holding power, which can adapt to complex terrains such as slopes, muddy roads, soft mountains and the like, improve the holding power, ensure the safety of personnel during special training and improve the wearing comfort.

In order to achieve the main object of the present invention, the present invention provides a high grip training shoe, which comprises a sole and an upper, wherein the sole extends from the front end of the upper to the rear end of the upper in the length direction of the upper, and the sole extends from the outer side edge of the upper to the inner side edge of the upper in the width direction of the upper, the sole comprises an anti-slip layer and a buffer layer, the anti-slip layer is used for contacting with the ground, the buffer layer is located between the anti-slip layer and the upper, the outer side surface of the anti-slip layer, which is far away from the buffer layer, is provided with a first anti-slip structure, a second anti-slip structure and a third anti-slip structure, the first anti-slip structure is located on the first end of the anti-slip layer, which is close to the front end of the upper, the first anti-slip structure comprises a plurality of first anti-slip strips, the plurality of first anti-slip strips are arranged side by side in the length direction of the upper, each first anti-slip strip extends in an arc shape in the width direction of the upper, and a first sawtooth groove is formed between two adjacent anti-slip strips, the plurality of first sawtooth grooves are distributed in a sine mode in the length direction of the upper, the second anti-slip structure is located at the second end, close to the rear end of the upper, of the anti-slip layer, the second anti-slip structure comprises a plurality of second anti-slip strips, the plurality of second anti-slip strips are arranged side by side in the length direction of the upper, each second anti-slip strip extends in an arc mode in the width direction of the upper, a second sawtooth groove is formed between every two adjacent second anti-slip strips, the plurality of second sawtooth grooves are distributed in a sine mode in the length direction of the upper, the third anti-slip structure is located between the first anti-slip structure and the second anti-slip structure in the length direction of the upper, the third anti-slip structure comprises a plurality of groups of first bulge assemblies, the plurality of groups of first bulge assemblies are arranged in a sole area of the upper side by side in the length direction of the upper, each group of first bulge assemblies comprises a first boss, the first bosses extend in the width direction of the upper, first V type groove has been seted up to the lateral surface that the buffer layer was kept away from to first boss, and first V type groove runs through the both ends setting of first boss in the width direction of upper of a shoe, is provided with first protruding muscle in the first V type inslot, and first protruding muscle extends in the width direction of upper of a shoe.

According to the scheme, the sole of the training shoe comprises the anti-slip layer and the buffer layer, the anti-slip layer is used for being in contact with the ground, the buffer layer is located between the anti-slip layer and the upper, and the buffer layer can relieve impact, impact or other stress transmitted through the anti-slip layer, so that the wearing comfort of the training shoe is improved, and the safety of personnel in special training is guaranteed. Furthermore, in the training shoe, a first anti-slip structure, a second anti-slip structure and a third anti-slip structure are arranged on the outer side surface, away from the buffer layer, of the anti-slip layer of the sole, a plurality of first anti-slip strips of the first anti-slip structure, a plurality of second anti-slip strips of the second anti-slip structure and a plurality of groups of first boss assemblies in the third anti-slip structure have enough contact area with the ground so as to ensure friction force, a second sawtooth groove is formed between every two adjacent second anti-slip strips, the first sawtooth grooves are distributed in a sine mode in the length direction of the upper, a second sawtooth groove is formed between every two adjacent second anti-slip strips, the second sawtooth grooves are distributed in a sine mode in the length direction of the upper, a first V-shaped groove is formed on the outer side surface, away from the buffer layer, of the first V-shaped groove penetrates through two ends of the first boss in the width direction of the upper, the first sawtooth groove, a second sawtooth groove, a third sawtooth groove, a fourth sawtooth groove, second sawtooth groove, first V type groove can be in antislip strip and boss embedding muddy slope, mountain region or when loosening the soil, increase the area of adhering to of stress surface to make antislip strip and boss have stronger land fertility of grabbing, when mountain-climbing or climbing, absorb, utilize reaction force to prevent skidding, thereby make the training shoes can adapt to complicated topography such as slope, muddy, soft mountain road, improve and grab the land fertility, the security of support personnel when carrying out special training. In addition, the first V-shaped groove is internally provided with the first convex rib, the first convex rib extends in the width direction of the upper, and the arrangement of the first convex rib is used for enhancing the structural strength of the first boss, so that the functional reliability of the first boss is ensured.

As the scheme of further optimization, the smooth structure of third prevention still includes the protruding subassembly of multiunit second, the protruding subassembly of multiunit second sets up the heel district at the upper of a shoe side by side on the length direction of upper of a shoe, each group's protruding subassembly of second includes the second boss, the second boss extends on the width direction of upper of a shoe, the second V type groove has been seted up to the lateral surface that the buffer layer was kept away from to the second boss, the both ends setting that the second boss was run through in the width direction of upper of a shoe in the second V type groove, the protruding muscle of second V type inslot is provided with the protruding muscle of second, the protruding muscle of second extends on the width direction of upper of a shoe.

As a further optimized scheme, each group of first protruding assemblies further comprises two first protruding blocks, the two first protruding blocks are respectively located on two sides of the first boss in the width direction of the upper, the two first protruding blocks are respectively arranged opposite to two open ends of the first V-shaped groove, each group of second protruding assemblies further comprises two second protruding blocks, the two second protruding blocks are respectively located on two sides of the second boss in the width direction of the upper, and the two second protruding blocks are respectively arranged opposite to two open ends of the second V-shaped groove.

As a further optimized scheme, the lateral surface of the anti-slip layer, which is far away from the buffer layer, is further provided with a plurality of fourth anti-slip structures, the plurality of fourth anti-slip structures are arranged in the sole area of the upper side in the length direction of the upper side by side, and the plurality of fourth anti-slip structures and the plurality of groups of first protruding assemblies are arranged in the length direction of the upper side by side in a staggered manner, each fourth anti-slip structure comprises two third protruding blocks, one third protruding block is arranged opposite to one first protruding block in the length direction of the upper side, the lateral surface of each third protruding block, which is far away from the buffer layer, is provided with a first through groove, the two ends of one third protruding block are arranged in the width direction of the upper side in a penetrating manner, and one first through groove is provided with a first reinforcing rib, which extends in the width direction of the upper side.

As a further optimized scheme, the lateral surface of the anti-slip layer, which is far away from the buffer layer, is further provided with a plurality of fifth anti-slip structures, the plurality of fifth anti-slip structures are arranged in the heel area of the upper side in the length direction of the upper side by side, and the plurality of fifth anti-slip structures and the plurality of groups of second protruding assemblies are arranged in the heel area of the upper side in a staggered manner in the length direction of the upper side by side, each fifth anti-slip structure comprises two fourth protruding blocks, one fourth protruding block is arranged opposite to one second protruding block in the length direction of the upper side, the lateral surface of each fourth protruding block, which is far away from the buffer layer, is provided with a second through groove, one second through groove penetrates through the two ends of one fourth protruding block in the width direction of the upper side, and one second through groove is provided with a second reinforcing rib, and the second reinforcing rib extends in the width direction of the upper side.

As a further optimized scheme, each group of first convex assemblies further comprises two first convex strips, one first convex strip is connected to one side of one first convex block and one first convex block respectively, two ends of one first convex strip in the length direction of the upper are respectively connected with two adjacent third convex blocks, the outer side surface, away from the buffer layer, of one first convex strip is convexly provided with a third reinforcing rib, the third reinforcing rib extends in the length direction of the upper, the distance between the outer side surface of the third reinforcing rib and the buffer layer is smaller than the distance between the outer side surface of the third convex block and the buffer layer, each group of second convex assemblies further comprises two second convex strips, one second convex strip is connected to one side of one second convex block and one side of the second convex block respectively, two ends, in the length direction of the upper, of one second convex strip are respectively connected with two adjacent fourth convex blocks, and the outer side surface, away from the buffer layer, of one second convex strip is convexly provided with a fourth reinforcing rib, the fourth reinforcing rib extends in the length direction of the upper, and the distance between the outer side face of the fourth reinforcing rib and the buffer layer is smaller than the distance between the outer side face of the fourth bump and the buffer layer.

As the scheme of further optimization, the lateral surface that the buffer layer was kept away from to the skid resistant course still is provided with sixth anti-skidding structure, sixth anti-skidding structure is located between the heel district of the sole district of upper of a shoe and upper of a shoe on the length direction of upper of a shoe, sixth anti-skidding structure includes two fifth lugs, two fifth lugs are close to the outside limit of upper of a shoe and the inboard side setting of upper of a shoe respectively on the width direction of upper of a shoe, the lateral surface that the buffer layer was kept away from to each fifth lug has seted up the third and has led to the groove, the both ends setting that a fifth lug was run through to a third logical groove on the width direction of upper of a shoe, and be provided with the fifth strengthening rib in the third logical groove, the fifth strengthening rib extends on the width direction of upper of a shoe.

As a further optimized scheme, a plurality of first grooves are formed in the side face, close to the anti-slip layer, of the buffer layer, a plurality of first through grooves are formed in the anti-slip layer in a penetrating mode, one first through groove corresponds to one first groove, and one first through groove is located between two fourth convex blocks of a fifth anti-slip structure in the width direction of the upper.

As a further optimized scheme, a plurality of second grooves are formed in the side face, close to the anti-slip layer, of the buffer layer, a plurality of second through grooves are formed in the anti-slip layer in a penetrating mode, one second through groove and one second groove are arranged correspondingly, and one second through groove is located between two third protruding blocks of one fourth anti-slip structure in the width direction of the upper.

As a further optimized scheme, a plurality of third grooves are formed in the side face, close to the anti-slip layer, of the buffer layer, one third groove corresponds to one first V-shaped groove, and each third groove penetrates through the two sides of the buffer layer in the width direction of the upper.

Drawings

FIG. 1 is a first perspective view of an embodiment of a high grip training shoe according to the present invention.

FIG. 2 is a second perspective view of an embodiment of a high grip training shoe according to the present invention.

Fig. 3 is a back view of an embodiment of a high grip training shoe of the present invention.

FIG. 4 is a first perspective view of a cushioning layer in an embodiment of a high grip training shoe of the present invention.

FIG. 5 is a second perspective view of a cushioning layer in an embodiment of a high grip training shoe of the present invention.

The utility model is further explained with reference to the drawings and the embodiments.

Detailed Description

Referring to fig. 1 to 5, the present embodiment discloses a high grip training shoe, which includes a sole 1 and an upper, wherein the sole 1 extends from the front end of the upper to the rear end of the upper in the length direction of the upper, and the sole 1 extends from the outer side edge of the upper to the inner side edge of the upper in the width direction of the upper, the sole 1 includes an anti-slip layer 11 and a buffer layer 12, the anti-slip layer 11 is used for contacting with the ground, and the buffer layer 12 is located between the anti-slip layer 11 and the upper. Lateral surface that buffer layer 12 was kept away from to skid resistant course 11 is provided with first anti-skidding structure, second anti-skidding structure and third anti-skidding structure, first anti-skidding structure is located the first end that skid resistant course 11 is close to the front end of upper, first anti-skidding structure includes a plurality of first antislip strips 111, a plurality of first antislip strips 111 set up side by side on the length direction of upper, each first antislip strip 111 is the arc extension on the width direction of upper, form first serration groove 112 between two adjacent first antislip strips 111, a plurality of first serration grooves 112 are sinusoidal distribution on the length direction of upper. The second anti-slip structure is located the skid resistant course 11 and is served near the second of the rear end of upper, and second anti-slip structure includes a plurality of second antislip strips 113, and a plurality of second antislip strips 113 set up side by side on the length direction of upper, and each second antislip strip 113 is the arc extension on the width direction of upper, forms second serration groove 114 between two adjacent second antislip strips 113, and a plurality of second serration grooves 114 are sinusoidal distribution on the length direction of upper. Third anti-skidding structure is located between first anti-skidding structure and the second anti-skidding structure on the length direction of upper of a shoe, third anti-skidding structure includes the first protruding subassembly of multiunit, the first protruding subassembly of multiunit sets up the sole district at the upper of a shoe side by side on the length direction of upper of a shoe, the first protruding subassembly of each group includes first boss 116, first boss 116 extends on the width direction of upper of a shoe, first V type groove 1161 has been seted up to the lateral surface that buffer layer 12 was kept away from to first boss 116, first V type groove 1161 runs through the both ends setting of first boss 116 on the width direction of upper of a shoe, be provided with first protruding muscle 1162 in the first V116type groove 1, first protruding muscle 1162 extends on the width direction of upper of a shoe.

The sole 1 of this embodiment combat shoe includes skid resistant course 11 and buffer layer 12, and skid resistant course 11 is used for with ground contact, and buffer layer 12 is located between skid resistant course 11 and the upper of a shoe, and buffer layer 12 can slow down striking, impact or other stress through the transmission of skid resistant course 11 to promote the comfort level that the combat shoe was dressed, and the security of support personnel when carrying out special training. Furthermore, in the training shoe of this embodiment, the outer side surface of the anti-slip layer 11 of the sole 1 away from the cushioning layer 12 is provided with a first anti-slip structure, a second anti-slip structure and a third anti-slip structure, the plurality of first anti-slip strips 111 of the first anti-slip structure, the plurality of second anti-slip strips 113 of the second anti-slip structure and the first bosses 116 of the plurality of sets of first protrusion assemblies in the third anti-slip structure have sufficient contact area with the ground, so as to ensure friction force, meanwhile, a second sawtooth groove 114 is formed between two adjacent second anti-slip strips 113, the plurality of first sawtooth grooves 112 are distributed in a sine shape in the length direction of the upper, a second sawtooth groove 114 is formed between two adjacent second anti-slip strips 113, the plurality of second sawtooth grooves 114 are distributed in a sine shape in the length direction of the upper, the outer side surface of the first boss 116 away from the cushioning layer 12 is provided with a first V-shaped groove 1161, the first V-shaped groove 1161 penetrates through both ends of the first boss 116 in the width direction of the upper, first sawtooth groove 112, second sawtooth groove 114, first V type groove 1161 can be at antislip strip and boss embedding muddy slope, the mountain region or when loosening the soil, increase the area of adhering to of stress surface, and make antislip strip and boss have stronger land fertility of grabbing, when mountain-climbing or climbing, absorb, utilize reaction force to prevent skidding, thereby make the training shoes can adapt to the slope, muddy, complicated topography such as soft mountain road, the land fertility is grabbed in the improvement, the security of support personnel when carrying out special training. In addition, be provided with first protruding muscle 1162 in the first V-shaped groove 1161 of this embodiment, first protruding muscle 1162 extends in the width direction of upper, and the setting of first protruding muscle 1162 is used for strengthening the structural strength of first boss 116 to guarantee the functional reliability of first boss 116.

For further promoting frictional force and grabbing ground power, this embodiment third prevents smooth structure still includes the protruding subassembly of multiunit second, the protruding subassembly of multiunit second sets up the heel district at the upper of a shoe side by side on the length direction of upper of a shoe, each protruding subassembly of group second includes second boss 118, second boss 118 extends on the width direction of upper of a shoe, second V type groove 1181 has been seted up to the lateral surface that buffer layer 12 was kept away from to second boss 118, second V type groove 1181 runs through the both ends setting of second boss 118 on the width direction of upper of a shoe, be provided with second protruding muscle 1182 in the second V type groove 1181, second protruding muscle 1182 extends on the width direction of upper of a shoe. Specifically, each set of first protrusion assemblies further includes two first bumps 1163, the two first bumps 1163 are respectively located on two sides of the first boss 116 in the width direction of the upper, and the two first bumps 1163 are respectively disposed opposite to two open ends of the first V-shaped groove 1161. Each set of second protrusion assemblies further includes two second protrusions 1183, the two second protrusions 1183 are respectively located on two sides of the second boss 118 in the width direction of the upper, and the two second protrusions 1183 are respectively disposed opposite to two open ends of the second V-shaped groove 1181.

In order to further promote frictional force and grip, the lateral surface of buffer layer 12 is kept away from on this embodiment skid-proof layer 11 still is provided with a plurality of fourth anti-skidding structures, and a plurality of fourth anti-skidding structures set up side by side in the sole district of upper of a shoe on the length direction of upper of a shoe, and a plurality of fourth anti-skidding structures and the first protruding subassembly of multiunit are crisscross to be set up side by side on the length direction of upper of a shoe. Each fourth anti-slip structure includes two third protrusions 115, one third protrusion 115 is disposed opposite to one first protrusion 1163 in the length direction of the upper, a first through groove 1151 is formed in an outer side surface, away from cushioning layer 12, of each third protrusion 115, one first through groove 1151 is disposed through two ends of one third protrusion 115 in the width direction of the upper, a first reinforcing rib 1152 is disposed in one first through groove 1151, and the first reinforcing rib 1152 extends in the width direction of the upper.

In order to further promote frictional force and grip, the lateral surface of buffer layer 12 is kept away from on this embodiment skid-proof layer 11 still is provided with a plurality of fifth anti-skidding structures, and a plurality of fifth anti-skidding structures set up side by side in the heel district of upper of a shoe on the length direction of upper of a shoe, and a plurality of fifth anti-skidding structures and the protruding subassembly of multiunit second set up side by side in the length direction of upper of a shoe in a staggered manner. Each fifth anti-slip structure includes two fourth bumps 119, one fourth bump 119 is arranged opposite to one second bump 1183 in the length direction of the upper, a second through groove 1191 is formed in the outer side surface, away from the buffer layer 12, of each fourth bump 119, one second through groove 1191 is arranged at two ends, penetrating through one fourth bump 119 in the width direction of the upper, of each second through groove 1191, a second reinforcing rib 1192 is arranged in one second through groove 1191, and the second reinforcing rib 1192 extends in the width direction of the upper.

Each group of first protrusion assemblies further includes two first protruding strips 1164, one first protruding strip 1164 is connected to one side of one first bump 1163 and one side of the first boss 116, two ends of one first protruding strip 1164 in the length direction of the upper are connected to two adjacent third bumps 115, a third reinforcing rib 1165 is arranged on the outer side surface of one first protruding strip 1164 far away from the buffer layer 12 in a protruding manner, the third reinforcing rib 1165 extends in the length direction of the upper, and the distance between the outer side surface of the third reinforcing rib 1165 and the buffer layer 12 is smaller than the distance between the outer side surface of the third bump 115 and the buffer layer 12. Each group of second protrusion assemblies further includes two second protruding strips 1184, one second protruding strip 1184 is connected to one side of one second protruding strip 1183 and one side of the second boss 118, and two ends of one second protruding strip 1184 in the length direction of the upper are respectively connected to two adjacent fourth protruding strips 119, a fourth reinforcing strip 1185 is arranged on the outer side surface of one second protruding strip 1184 away from the buffer layer 12 in a protruding manner, the fourth reinforcing strip 1185 extends in the length direction of the upper, and the distance between the outer side surface of the fourth reinforcing strip 1185 and the buffer layer 12 is smaller than the distance between the outer side surface of the fourth protruding strip 119 and the buffer layer 12.

In order to further improve friction and grip, the lateral surface of the anti-slip layer 11 far away from the buffer layer 12 of this embodiment is further provided with a sixth anti-slip structure, the sixth anti-slip structure is located between the foot palm area of the upper and the heel area of the upper in the length direction of the upper, the sixth anti-slip structure includes two fifth bumps 117, the two fifth bumps 117 are respectively close to the outer side edge of the upper and the inner side edge of the upper in the width direction of the upper, a third through groove 1171 is opened on the lateral surface of each fifth bump 117 far away from the buffer layer 12, the two ends of one fifth bump 117 are penetrated in the width direction of the upper by one third through groove 1171, fifth reinforcing ribs 1172 are provided in one third through groove 1171, and the fifth reinforcing ribs 1172 extend in the width direction of the upper.

In order to improve the buffering deformability of the buffering layer 12 and increase the wearing comfort, a plurality of first grooves 121 are disposed on the side surface of the buffering layer 12 close to the anti-slip layer 11, a plurality of first through grooves are disposed through the anti-slip layer 11, one first through groove corresponds to one first groove 121, and one first through groove is disposed between two fourth protruding blocks 119 of a fifth anti-slip structure in the width direction of the upper. In addition, in this embodiment, a plurality of second grooves 122 are formed in the side surface of the buffer layer 12 close to the anti-slip layer 11, a plurality of second through grooves are formed through the anti-slip layer 11, one second through groove is disposed corresponding to one second groove 122, and one second through groove is located between two third protruding blocks 115 of one fourth anti-slip structure in the width direction of the upper. In addition, a plurality of third grooves 123 are formed in the side surface of the buffer layer 12 close to the anti-slip layer 11, one third groove 123 corresponds to one first V-shaped groove 1161, and each third groove 123 penetrates through two sides of the buffer layer 12 in the width direction of the upper.

The above embodiments of the present invention should not be construed as limiting the scope of the present invention. Any other corresponding changes and modifications made according to the technical idea of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A high grip training shoe comprising a sole and an upper, the sole extending in the length direction of the upper from the front end of the upper to the rear end of the upper and in the width direction of the upper from the outer side edge of the upper to the inner side edge of the upper, the sole comprising an anti-slip layer for contacting the ground and a cushioning layer between the anti-slip layer and the upper, characterized in that:

a first anti-slip structure, a second anti-slip structure and a third anti-slip structure are arranged on the outer side surface, far away from the buffer layer, of the anti-slip layer, the first anti-slip structure is located at a first end, close to the front end of the upper, of the anti-slip layer, the first anti-slip structure comprises a plurality of first anti-slip strips, the first anti-slip strips are arranged side by side in the length direction of the upper, each first anti-slip strip extends in an arc shape in the width direction of the upper, a first sawtooth groove is formed between every two adjacent first anti-slip strips, and the first sawtooth grooves are distributed in a sine shape in the length direction of the upper;

the second anti-slip structure is positioned at a second end, close to the rear end of the upper, of the anti-slip layer and comprises a plurality of second anti-slip strips, the second anti-slip strips are arranged side by side in the length direction of the upper, each second anti-slip strip extends in an arc shape in the width direction of the upper, a second sawtooth groove is formed between every two adjacent second anti-slip strips, and the second sawtooth grooves are distributed in a sine shape in the length direction of the upper;

third anti-skidding structure is in lie in on the length direction of upper of a shoe first anti-skidding structure with between the second anti-skidding structure, third anti-skidding structure includes the first protruding subassembly of multiunit, multiunit first protruding subassembly is in set up side by side on the length direction of upper of a shoe the sole district of upper of a shoe, each group first protruding subassembly includes first boss, first boss is in extend on the width direction of upper of a shoe, first V type groove is kept away from to first boss first V type groove is seted up to the lateral surface of buffer layer, first V type groove is in run through on the width direction of upper of a shoe the both ends setting of first boss, first V type inslot is provided with first protruding muscle, first protruding muscle is in extend on the width direction of upper of a shoe.

2. A high grip training shoe as claimed in claim 1, wherein:

third smooth structure of prevention still includes the protruding subassembly of multiunit second, the multiunit the protruding subassembly of second is in set up side by side on the length direction of upper of a shoe the heel district of upper of a shoe, each group the protruding subassembly of second includes the second boss, the second boss is in extend on the width direction of upper of a shoe, the second boss is kept away from second V type groove has been seted up to the lateral surface of buffer layer, second V type groove is in run through on the width direction of upper of a shoe the both ends of second boss set up, the protruding muscle of second V type inslot is provided with the protruding muscle of second, the protruding muscle of second is in extend on the width direction of upper of a shoe.

3. A high grip training shoe as claimed in claim 2, wherein:

each group of first protruding assemblies further comprises two first protruding blocks, the two first protruding blocks are respectively located on two sides of the first boss in the width direction of the upper, and the two first protruding blocks are respectively arranged opposite to two open ends of the first V-shaped groove;

each group of second protruding assemblies further comprise two second protruding blocks, the two second protruding blocks are located on two sides of the second boss respectively in the width direction of the upper, and the two second protruding blocks are arranged opposite to two opening ends of the second V-shaped groove respectively.

4. A high grip training shoe as claimed in claim 3, wherein:

the lateral surface, away from the buffer layer, of the anti-slip layer is further provided with a plurality of fourth anti-slip structures, the fourth anti-slip structures are arranged in the sole area of the upper side in parallel in the length direction of the upper, and the fourth anti-slip structures and the first bump assemblies are arranged in a staggered manner in parallel in the length direction of the upper;

each fourth anti-skidding structure includes two third lugs, one the third lug is in on the length direction of upper of a shoe with one first lug sets up relatively, each the third lug is kept away from first logical groove has been seted up to the lateral surface of buffer layer, one first logical groove is in run through one on the width direction of upper of a shoe the both ends setting of third lug, and one first logical inslot is provided with first strengthening rib, first strengthening rib is in extend on the width direction of upper of a shoe.

5. A high grip training shoe as claimed in claim 4, wherein:

the lateral surface, far away from the buffer layer, of the anti-slip layer is further provided with a plurality of fifth anti-slip structures, the fifth anti-slip structures are arranged in the heel area of the upper side in parallel in the length direction of the upper, and the fifth anti-slip structures and the plurality of groups of second protrusion assemblies are arranged in a staggered and parallel mode in the length direction of the upper;

each fifth anti-skidding structure includes two fourth lugs, one the fourth lug is in on the length direction of upper of a shoe with one the second lug sets up relatively, each the fourth lug is kept away from the lateral surface of buffer layer has been seted up the second and has been led to the groove, one the second leads to the groove and is in run through one on the width direction of upper of a shoe the both ends setting of fourth lug, and one be provided with the second strengthening rib in the second lead to the groove, the second strengthening rib is in extend on the width direction of upper of a shoe.

6. A high grip training shoe as claimed in claim 5, wherein:

each group of first protruding assemblies further comprises two first protruding strips, one first protruding strip is connected to one side of one first protruding block and one first boss, two ends of one first protruding strip in the length direction of the upper are respectively connected with two adjacent third protruding blocks, a third reinforcing rib is arranged on the outer side face, away from the buffer layer, of one first protruding strip in a protruding mode, the third reinforcing rib extends in the length direction of the upper, and the distance between the outer side face of the third reinforcing rib and the buffer layer is smaller than the distance between the outer side face of the third protruding block and the buffer layer;

every a set of the protruding subassembly of second still includes two second sand grips, one the second sand grip is connected respectively one the second lug with one side of second boss, and one the second sand grip is in both ends on the length direction of upper of a shoe are respectively with adjacent two the fourth lug, one the second sand grip is kept away from the lateral surface protrusion of buffer layer is provided with the fourth strengthening rib, the fourth strengthening rib is in extend on the length direction of upper of a shoe, just the lateral surface of fourth strengthening rib with distance between the buffer layer is less than the lateral surface of fourth lug with distance between the buffer layer.

7. A high grip training shoe as claimed in claim 6, wherein:

the anti-slip layer is kept away from the lateral surface of buffer layer still is provided with sixth anti-slip structure, sixth anti-slip structure is in lie in the length direction of upper of a shoe the sole district of upper of a shoe with between the heel district of upper of a shoe, sixth anti-slip structure includes two fifth lugs, two the fifth lug is in be close to respectively in the width direction of upper of a shoe the outside limit of upper of a shoe with the inboard side setting of upper of a shoe, each the fifth lug is kept away from the lateral surface of buffer layer has seted up the third and has led to the groove, one the third leads to the groove and is in run through one in the width direction of upper of a shoe the both ends setting of fifth lug, and one be provided with fifth strengthening rib in the third notch, fifth strengthening rib is in extend in the width direction of upper of a shoe.

8. A high grip training shoe as claimed in claim 7, wherein:

the anti-skid shoe comprises an upper, a buffer layer, a first anti-skid structure and a fourth anti-skid structure, wherein the anti-skid layer is arranged on the upper, the buffer layer is arranged on the side surface, close to the anti-skid layer, of the buffer layer, the anti-skid layer is provided with a plurality of first through grooves in a penetrating mode, one first through groove is arranged corresponding to one first groove, and one first through groove is arranged between two fourth lugs of the fifth anti-skid structure in the width direction of the upper.

9. A high grip training shoe as claimed in claim 8, wherein:

the buffer layer is close to the side of skid resistant course and has seted up a plurality of second recesses, the skid resistant course runs through and has seted up a plurality of second and link up the groove, one the second link up the groove with one the second recess corresponds the setting, one the second link up the groove is in the width direction of upper of a shoe is located one between two third lugs of fourth anti-skidding structure.

10. A high grip training shoe as claimed in any one of claims 1 to 9, wherein:

a plurality of third grooves are formed in the side face, close to the anti-slip layer, of the buffer layer, one of the third grooves corresponds to one of the first V-shaped grooves, and each of the third grooves penetrates through the two sides of the buffer layer in the width direction of the upper.

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