CN219699164U - Paratrooper boots bottom structure - Google Patents

Abstract

The utility model relates to a paratrooper sole structure, and relates to the technical field of soles, which comprises a sole main body, wherein the sole main body comprises a sole part, a shoe bow part and a heel part, the sole part is positioned at the front end of the sole main body, the heel part is positioned at the rear end of the sole main body, the shoe bow part is positioned between the heel part and the sole part, the shoe bow part and the heel part are integrally formed; the side surface of the shoe arch part close to the ground is fixedly provided with a reinforcing layer, and the reinforcing layer is made of high-hardness rubber; according to the utility model, due to the arrangement of the reinforcing layer, when a paratrooper climbs along the rope, the rope is commonly held by two hands by adopting a 'leg-combining rope clamping method', meanwhile, the shoe arch part is abutted against the rope by applying force by the foot part, and the wear resistance of the shoe arch part is improved by the arrangement of the reinforcing layer, so that the wear degree of the shoe arch part is reduced, and the service life of the sole structure is prolonged.

Description

Paratrooper boots bottom structure

Technical Field

The utility model relates to the technical field of soles, in particular to a paratrooper sole structure.

Background

When the paratrooper exercises or performs tasks, the paratrooper moves upwards or downwards along the rope, the paratrooper usually adopts a 'leg-combining rope clamping method', two hands grip the rope, and simultaneously the foot parts apply force to enable the middle part of the sole to be abutted with the rope, so that friction between the sole and the rope is increased.

In the related art, the anti-skid wear-resistant sole comprises a sole, wherein the front part of the sole is a sole, the middle part of the sole is a sole center, the rear part of the sole is a heel, a circle of convex ribs are arranged at the edge of the sole, and a groove is formed in a gap between each convex rib; the front section of the sole is a toe cap, the middle part of the sole is a sole center, and the sole center is provided with anti-skid patterns; a shoe core is arranged between the sole and the heel of the sole, and the shoe core is arc-shaped.

However, the paratroopers often use the shoe core to rub with the rope during practice or battle, and after a period of use, the wear degree of the shoe core is serious, so that the service life of the sole is lower.

Disclosure of Invention

The utility model aims to provide a paratrooper boot sole structure, which solves the problems that the abrasion degree of a shoe core is serious and the service life of a sole is reduced due to serious friction between the shoe core and a rope when the paratrooper moves along the rope in the related art.

The utility model provides a paratrooper boot sole structure, which adopts the following technical scheme:

the paratrooper sole structure comprises a sole main body, wherein the sole main body comprises a sole part, a shoe bow part and a heel part, the sole part is positioned at the front end of the sole main body, the heel part is positioned at the rear end of the sole main body, the shoe bow part is positioned between the heel part and the sole part, the shoe bow part and the heel part are integrally formed; the side of the shoe arch part close to the ground is fixedly provided with a reinforcing layer, and the reinforcing layer is made of high-hardness rubber.

Through adopting above-mentioned technical scheme, paratrooper is when climbing along the rope, owing to adopt "leg clamp rope method" generally, both hands grip the rope, and foot application of force makes shoe bow portion and rope butt simultaneously, improves shoe bow portion's wear resistance through the setting of enhancement layer to this reduces shoe bow portion's wearing and tearing degree, improves the life of this boots bottom structure.

Optionally, the shoe arch part is provided with an upward extending binding, and the outer side surface of the binding is also fixedly provided with a reinforcing layer.

Through adopting above-mentioned technical scheme, when this sole main part and vamp equipment, through the setting of borduring, be provided with ascending bordure at the shoe arch portion to this is convenient for the equipment of sole main part and vamp is fixed, simultaneously on the lateral surface of bordure equally fixed enhancement layer that is equipped with. Thereby improving the wear resistance of the wrapping edge.

Optionally, tower-shaped protruding blocks which are uniformly distributed are arranged on the outer side surface of the reinforcing layer, which faces away from the shoe arch part.

Through adopting above-mentioned technical scheme, when paratrooper uses the shoe arch portion to support tightly with the rope, through the tower lug that evenly sets up on the lateral surface of enhancement layer to increase the friction between shoe arch portion and the rope, improve the antiskid performance of shoe arch portion.

Optionally, a plurality of first non-slip blocks are arranged on the side edges of the sole part and the heel part, which are far away from each other, and a plurality of first non-slip blocks are symmetrically arranged on the sole part and the heel part, and a non-slip groove is arranged between every two adjacent first non-slip blocks.

By adopting the technical scheme, when rain and snow weather or roads are muddy, the first anti-skid blocks and the anti-skid grooves are arranged, so that the anti-skid performance on the muddy roads is improved, the wear resistance of the heel part and the sole part is improved, and even if the sole structure is worn to a certain extent on the ground, the first anti-skid blocks are worn preferentially, so that the service lives of the heel part and the sole part are prolonged;

optionally, anti-skidding tooth grooves which are uniformly distributed are formed in the first anti-skidding block.

By adopting the technical scheme, when walking on the road surface, the anti-skid performance of the heel part and the sole part is further improved through the arrangement of the anti-skid tooth grooves.

Optionally, a plurality of wear-resistant blocks are arranged at the edges of the two sides of the sole part and the heel part.

Through adopting above-mentioned technical scheme, paratrooper or other users when walking on rain and snow weather or muddy road surface, through the setting of wear-resisting piece, improve the skid resistance when the user walks on this road surface, also avoid ground direct to lead to the fact the friction with heel portion directly simultaneously, carry Gao Xiegen portion and shoe sole portion's life.

Optionally, a containing groove is arranged between adjacent wear-resisting blocks.

Through adopting above-mentioned technical scheme, under the prerequisite of guaranteeing this sole structure antiskid performance, through the setting of storage tank, when walking on muddy road, probably have some earth or impurity adhesion at the sole, but owing to there is the existence of storage tank, earth or impurity breaks away from the sole again owing to the vibrations of sole and ground when walking to this avoids earth or other impurity laminating or adhesion at the bottom side of heel portion or sole portion.

Optionally, a positioning groove communicated with the accommodating groove is formed in the wear-resistant block.

Through adopting above-mentioned technical scheme, after walking on muddy road, even some great impurity plugs in the holding groove, through the setting of positioning groove and holding groove intercommunication, also be convenient for follow positioning groove with the help of other instruments with impurity separation from the holding inslot portion.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. through the arrangement of the reinforcing layer, the paratroopers can grip the ropes by two hands and apply force to enable the shoe arch part to be abutted with the ropes when climbing along the ropes, and the wear resistance of the shoe arch part is improved through the arrangement of the reinforcing layer, so that the wear degree of the shoe arch part is reduced, and the service life of the sole structure is prolonged; through the arrangement of the tower-shaped protruding blocks on the outer side surface of the reinforcing layer, friction between the shoe arch part and the rope is increased when the paratrooper uses the shoe arch part to tightly prop against the rope, and the anti-skid performance of the shoe arch part is improved.

2. Through the setting of a plurality of first non-skid blocks and second non-skid blocks, when the paratrooper walks on the muddy road, the skid resistance of Gao Xiegen portion and sole portion reduces the possibility that the slip appears when walking on the muddy road.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present utility model;

figure 2 is a schematic view of the underside of a sole body embodying an embodiment of the present utility model.

In the figure, 1, a boot sole main body; 11. a heel portion; 12. a shoe arch portion; 121. wrapping edges; 13. a sole portion; 131. a wear block; 1311. a positioning groove; 132. a receiving groove; 133. a first non-slip block; 1331. anti-slip tooth slots; 134. an anti-skid groove; 135. a second non-slip block; 14. a reinforcing layer; 141. a tower-shaped bump; 15. blank space.

Detailed Description

The present utility model will be described in further detail below with reference to the accompanying drawings.

Examples:

referring to fig. 1, an paratrooper sole structure comprises a sole main body 1, wherein the sole main body 1 comprises a sole portion 13, a shoe bow portion 12 and a heel portion 11, the sole portion 13 is positioned at the front end of the sole main body 1, the heel portion 11 is positioned at the rear end of the sole main body 1, the shoe bow portion 12 is positioned between the heel portion 11 and the sole portion 13, the shoe bow portion 12 and the heel portion 11 are integrally injection molded, and the sole main body 1 is made of PU material.

Referring to fig. 1, the shoe arch portion 12 is provided with a reinforcing layer 14 on an outer side surface adjacent to the ground when worn, wherein the reinforcing layer 14 is made of high-hardness rubber, the outer side surface of the shoe arch portion 12 is covered with a high-hardness rubber layer, and the high-hardness rubber is made of nitrile rubber. The reinforcing layer 14 is fixedly connected with the shoe arch part 12 through glue. The wear resistance of the shoe arch part 12 is improved through the arrangement of the reinforcing layer 14, so that the wear degree of the shoe arch part 12 is reduced when a paratrooper climbs along a rope, and the service life of the boot sole structure is prolonged.

Referring to fig. 1, a binding 121 extending upwards is provided on the arch portion 12, and when the sole body 1 is assembled with the vamp, the binding 121 facilitates the assembly and fixation of the sole body 1 and the vamp; the edge 121 is also provided with a reinforcing layer 14, tower-shaped lugs 141 which are uniformly distributed are arranged on the outer side surface of the reinforcing layer 14, which is opposite to the shoe arch 12, and the tower-shaped lugs 141 are made of the same material as the reinforcing layer 14, and are made of high-hardness rubber.

Referring to fig. 2, the two side edges of the sole portion 13 and the heel portion 11 are respectively provided with a plurality of wear-resistant blocks 131, the wear-resistant blocks 131 are made of PU material, meanwhile, the wear-resistant blocks 131 and the sole main body 1 are integrally formed, and by means of the arrangement of the wear-resistant blocks 131, the anti-slip performance of a user when walking on a road surface in rainy and snowy weather or muddy road surface is improved, meanwhile, the direct friction caused by the ground to the sole portion 13 and the heel portion 11 is avoided, and the service lives of the heel portion 11 and the sole portion 13 are prolonged.

Referring to fig. 2, receiving grooves 132 are provided between adjacent wear-resistant blocks 131, and soil or impurities are separated from the sole again due to vibration of the sole and the ground during walking by the arrangement of the receiving grooves 132 on the premise of ensuring the anti-slip performance thereof, so as to prevent the soil or other impurities from adhering or adhering to the bottom side of the heel portion 11 or the sole portion 13; the positioning groove 1311 communicating with the accommodation groove 132 is provided on the wear-resistant block 131, and by the provision of the positioning groove 1311, even if some large foreign substances are plugged in the accommodation groove 132, the foreign substances are easily separated from the inside of the accommodation groove 132 from the positioning groove 1311 by other means.

Referring to fig. 2, two first anti-slip blocks 133 are respectively arranged on side edges of the sole portion 13 and the heel portion 11, which are far away from each other, the first anti-slip blocks 133 are made of PU, the two first anti-slip blocks 133 on the sole portion 13 and the heel portion 11 are symmetrically arranged, and anti-slip grooves 134 are arranged between adjacent first anti-slip blocks 133, so that the anti-slip performance on a muddy road is improved, the wear resistance of the heel portion 11 and the sole portion 13 is improved, and the first anti-slip blocks 133 are preferentially worn even if certain wear occurs, so that the service lives of the heel portion 11 and the sole portion 13 are prolonged; at the same time, the first anti-slip grooves 1331 are uniformly distributed on the first anti-slip block 133, so as to further improve the anti-slip performance of the heel part 11 and the sole part 13.

Referring to fig. 2, the middle parts of heel part 11 and sole part 13 are provided with a plurality of second anti-slip blocks 135, and the service lives of heel part 11 and sole part 13 are further improved by the arrangement of second anti-slip blocks 135. The reinforcing layer 14 is provided with a void 15 for marking the size of the sole.

The implementation principle of the embodiment of the utility model is as follows:

when the paratroopers use the parallel leg rope clamping method to climb or slide down along the rope hung down by the helicopter, the wear resistance of the shoe arch part 12 is enhanced through the arrangement of the reinforcing layer 14, and the friction between the rope and the shoe arch part 12 is enhanced through the arrangement of the tower-shaped convex blocks 141 on the outer side surface of the reinforcing layer 14, so that the anti-skid performance of the shoe arch part 12 is improved.

When the paratroopers walk on the muddy road, the anti-skid performance of the heel part 11 and the sole part 13 is improved through the arrangement of the first anti-skid blocks 133 and the second anti-skid blocks 135, and the possibility of sliding when walking on the muddy road is reduced.

The embodiments of the present utility model are all preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model, wherein like reference numerals are used to refer to like elements throughout. Therefore: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. The utility model provides an paratrooper sole structure, includes sole main part (1), sole main part (1) includes sole portion (13), arch of the shoe portion (12) and heel portion (11), sole portion (13) are located sole main part (1) front end, heel portion (11) are located sole main part (1) rear end, arch of the shoe portion (12) are located between heel portion (11) and sole portion (13), arch of the shoe portion (12) and heel portion (11) integrated into one piece;

the shoe arch part is characterized in that a reinforcing layer (14) is fixedly arranged on the side surface, close to the ground, of the shoe arch part (12), and the reinforcing layer (14) is made of high-hardness rubber.

2. The paratrooper sole structure according to claim 1, wherein an upwardly extending welt (121) is provided on the arch portion (12), and a reinforcing layer (14) is fixedly provided on the outer side surface of the welt (121).

3. A paratrooper sole structure according to claim 2, characterized in that the outer side of the reinforcing layer (14) facing away from the arch part (12) is provided with uniformly distributed tower-shaped lugs (141).

4. The paratrooper sole structure according to claim 1, wherein a plurality of first anti-skid blocks (133) are arranged on side edges of the sole portion (13) and the heel portion (11) which are far away from each other, the plurality of first anti-skid blocks (133) are symmetrically arranged on the sole portion (13) and the heel portion (11), and anti-skid grooves (134) are arranged between adjacent first anti-skid blocks (133).

5. The paratrooper sole structure according to claim 4, wherein the first anti-skid block (133) is provided with anti-skid tooth grooves (1331) which are uniformly distributed.

6. The paratrooper sole structure according to claim 1, wherein the sole portion (13) and the heel portion (11) are provided with a plurality of wear-resistant blocks (131) at both side edges.

7. The paratrooper sole structure according to claim 6, wherein a receiving groove (132) is provided between adjacent wear-resistant blocks (131).

8. The paratrooper sole structure according to claim 7, wherein the wear-resistant block (131) is provided with a positioning groove (1311) communicated with the accommodating groove (132).