CN212545819U

CN212545819U - Portable anti-fatigue shoe

Info

Publication number: CN212545819U
Application number: CN202021322906.2U
Authority: CN
Inventors: 张剑飞
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-08
Filing date: 2020-07-08
Publication date: 2021-02-19
Anticipated expiration: 2030-07-08

Abstract

The utility model discloses a portable antifatigue shoes relates to shoes technical field. The portable anti-fatigue shoe comprises a vamp, an insole and a sole, wherein the vamp is fixed on the sole, the insole is arranged on the upper surface of the sole and is fixedly connected with the vamp, a plurality of damping buffer blocks and damping buffer strips are formed on the lower surface of the sole and are divided into a plurality of groups, and the damping buffer blocks and the damping buffer strips in each group are identical or different in structure. The portable anti-fatigue shoe considers the energy loss of different positions of the sole, the arch and the heel, and different shock absorption blocks are arranged at corresponding positions, so that the anti-fatigue effect can be effectively improved.

Description

Portable anti-fatigue shoe

Technical Field

The utility model relates to a shoes articles for use technical field especially relates to a portable antifatigue shoes.

Background

Shoes are people walking, be used for protecting the important wearing articles for use of foot when the activity, especially with ground direct contact and bear the sole of human weight, more be the important position of shoes, the sole of general shoes is at the walking in-process, often take place and the slip between the ground, especially when meetting ponding, the non-skid property is relatively poor, be difficult to ensure people's safety, take place to slip easily, and long-time walking human foot can feel hypodynamia aching pain, ordinary sole is difficult to play fine massage sole's effect, the shock attenuation effect of sole is not obvious, the flexible material shock attenuation through the sole, the shock attenuation effect is limited, can not satisfy people's user demand. Most shoes on the market at present are light for better comfortable effect, but most shoes do not consider the energy loss of soles, arches and heels when walking, and the anti-fatigue effect is poor.

Disclosure of Invention

The technical problem to be solved in the utility model is how to provide a portable anti-fatigue shoe which considers the energy loss of the sole, the arch and the heel at different positions and improves the anti-fatigue effect.

In order to solve the technical problem, the utility model discloses the technical scheme who takes is: a portable antifatigue shoes, includes vamp, shoe-pad and sole, the vamp is fixed on the sole, the shoe-pad sets up the upper surface at the sole and with vamp fixed connection, its characterized in that: the lower surface of sole is formed with a plurality of shock attenuation buffer block and shock attenuation buffer strip, just shock attenuation buffer block and shock attenuation buffer strip divide into the multiunit, and the structure of shock attenuation buffer block and shock attenuation buffer strip is the same or different in every group.

The further technical scheme is as follows: the sole comprises a front sole part, a middle sole connecting part and a rear sole part, the front sole part is connected with the rear sole part through the middle sole connecting part, an included angle is formed between the front sole part and the ground, the lower surface of the front sole part is firstly kept at the included angle with the ground from front to back, then is contacted with the ground, and finally is provided with the included angle with the ground; the thickness of middle sole connecting portion is less than the thickness of preceding sole portion and back sole portion makes keep having certain distance between middle sole connecting portion and the ground, the front portion of back sole portion contacts with ground, and the thickness at the rear portion of back sole portion reduces gradually, makes distance between the rear portion of back sole portion and the ground increases gradually.

The further technical scheme is as follows: the first shock absorption buffer block group is arranged on the outer side of the lower surface of the front sole part and comprises a plurality of first shock absorption buffer blocks, the first shock absorption buffer blocks are distributed on the front sole part in an arc shape, each first shock absorption buffer block is provided with a transverse anti-skidding line and a longitudinal anti-skidding line, and the outer side of each first shock absorption buffer block extends to the side surface of the front sole part, so that a groove is formed between the first shock absorption buffer block and the first shock absorption buffer block which are positioned on the side surface part of the front sole part; the second shock absorption buffer block group is arranged on the inner side of the lower surface of the front sole part and comprises a plurality of second shock absorption buffer blocks, and the second shock absorption buffer blocks are distributed on the bottom of the front shoe in an arc shape, each second shock absorption buffer block is provided with a transverse anti-skid grain and a longitudinal first groove, and the first groove is communicated with the second shock absorption and buffer blocks, the outer side of each second shock absorption and buffer block extends to the side surface of the front sole part, so that a groove is formed between the second shock absorption and buffer block positioned at the side part of the front sole part and the second shock absorption and buffer block, the overall length of the second shock absorption buffer block group is smaller than that of the first shock absorption buffer block group, and the rear end of the second shock absorption buffer block group is flush with the rear end of the first shock absorption buffer block group, and the front end of the second shock absorption buffer block group moves backwards relative to the front end of the first shock absorption buffer block group.

The further technical scheme is as follows: third shock attenuation buffer block group sets up respectively the inboard and the outside of middle sole connecting portion, third shock attenuation buffer block group includes the third shock attenuation buffer block that a plurality of rectangle set up, every the outside of third shock attenuation buffer block extends to on the side of middle sole connecting portion for it forms the recess to be located between third shock attenuation buffer block and the third shock attenuation buffer block of middle sole connecting portion side part.

The further technical scheme is as follows: the fourth shock absorption buffer block group is arranged on the outer side of the lower surface of the rear sole part and comprises a plurality of fourth shock absorption buffer blocks, the fourth shock absorption buffer blocks are distributed on the rear sole part in an arc shape, each fourth shock absorption buffer block is provided with a transverse anti-skidding line and a longitudinal anti-skidding line, and the outer side of each fourth shock absorption buffer block extends to the side surface of the rear sole part, so that a groove is formed between the fourth shock absorption buffer block and the fourth shock absorption buffer block which are positioned on the side surface part of the rear sole part; the fifth shock absorption buffer block group is arranged on the inner side of the lower surface of the bottom of the rear shoe, the fifth shock absorption buffer block group comprises a plurality of fifth shock absorption buffer blocks, and the fifth shock absorption buffer blocks are distributed on the bottom of the rear shoe in an arc shape, each fifth shock absorption buffer block is provided with a transverse anti-skid grain and a longitudinal second groove, and the second groove is communicated with the fifth shock absorption and buffer blocks, the outer side of each fifth shock absorption and buffer block extends to the side surface of the bottom of the rear sole, so that a groove is formed between the fifth shock absorption and buffer block positioned at the side part of the bottom of the rear shoe and the fifth shock absorption and buffer block, the overall length of the fifth damping buffer block group is greater than the length of the fourth damping buffer block group, and the front end of the fifth damping buffer block group is flush with the front end of the fourth damping buffer block group, and the rear end of the fifth damping buffer block group moves backwards relative to the rear end of the fourth damping buffer block group.

The further technical scheme is as follows: the lower surface of the front sole part of the front sides of the first shock absorption buffer block group and the second shock absorption buffer block group is provided with a first shock absorption buffer strip group, the first shock absorption buffer strip group comprises a plurality of first shock absorption buffer strips arranged in an arc shape, one end of the first shock absorption buffer strip group is located on the front side of the first shock absorption buffer block group, and the other end of the first shock absorption buffer strip group is located on the front side of the second shock absorption buffer block group.

The further technical scheme is as follows: be provided with sixth shock attenuation buffering block group between first shock attenuation buffering block group and the second shock attenuation buffering block group, sixth shock attenuation buffering block group includes the fan-shaped sixth shock attenuation buffering block that sets up of a plurality of, wherein great one end orientation in the sixth shock attenuation buffering block first shock attenuation buffering block group, less one end orientation in the sixth shock attenuation buffering block second shock attenuation buffering block group, just first shock attenuation buffering block group with be formed with the second shock attenuation buffering strip between the sixth shock attenuation buffering block group.

The further technical scheme is as follows: a seventh damping buffer block group is arranged between the fourth damping buffer block group and the fifth damping buffer block group, the seventh damping buffer block group comprises a plurality of seventh damping buffer blocks which are arranged in a fan shape, wherein one larger end of the seventh damping buffer block faces the fifth damping buffer block group, one smaller end of the seventh damping buffer block faces the fourth damping buffer block group, and a third damping buffer strip is formed between the fifth damping buffer block group and the seventh damping buffer block group.

The further technical scheme is as follows: the lower surface of the rear sole part of the rear sides of the fourth shock absorption buffer block group and the fifth shock absorption buffer block group is provided with a fourth shock absorption buffer strip group, the fourth shock absorption buffer strip group comprises a plurality of fourth shock absorption buffer strips arranged in an arc shape, one end of the fourth shock absorption buffer strip group is located at the front side of the fourth shock absorption buffer block group, and the other end of the fourth shock absorption buffer strip group is located at the front side of the fifth shock absorption buffer block group.

The further technical scheme is as follows: the sole is made of corrosion-resistant, oil-stain-resistant and anti-skid materials; the insole is made of materials with memory function and sterilization function.

Adopt the produced beneficial effect of above-mentioned technical scheme to lie in: this application sets up the snubber block that the multiunit is different with the sole on the sole, arch of foot and heel position that corresponds, and the snubber block to different sole positions use different quantity and shape can effectually slow down the energy loss at corresponding position, and improved the travelling comfort of shoes makes its antifatigue effect better. In addition, the insole is made of materials with memory function and sterilization function, has buffer effect, can memorize the shape of the sole of a human body, makes the insole more comfortable, and has the effects of killing fungi and being odorless.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic sectional view of the sole according to the embodiment of the present invention;

FIG. 2 is a schematic bottom view of the sole according to an embodiment of the present invention;

fig. 3 is a left side view schematic structural view of the sole in the embodiment of the present invention;

fig. 4 is a right side view schematic structural view of the sole according to the embodiment of the present invention;

wherein: 1. a sole; 2. a front sole portion; 3. a mid-sole connecting portion; 4. a rear sole portion; 5. a first shock absorbing bumper block; 6. transverse anti-slip lines; 7. longitudinal anti-slip lines; 8. a second shock absorbing bumper block; 9. a longitudinal first groove; 10. a third shock absorbing buffer block; 11. a fourth shock absorbing buffer block; 12. a fifth damping buffer block; 13. a longitudinal second groove; 14. a first shock absorbing bumper strip; 15. a sixth shock absorbing buffer block; 16. a second damping cushion strip; 17. a seventh shock absorbing bumper block; 18. a third damping cushion bar; 19. a fourth damping cushion strip.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways different from the specific details set forth herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

The embodiment of the utility model discloses anti fatigue shoes of portable, including vamp, shoe-pad and sole 1, the vamp is fixed on sole 1, the shoe-pad sets up sole 1's upper surface and with vamp fixed connection, as shown in fig. 2-4, sole 1's lower surface is formed with a plurality of shock attenuation buffer block and shock attenuation buffering strip, just shock attenuation buffer block and shock attenuation buffering strip divide into the multiunit, and the structure of shock attenuation buffer block and shock attenuation buffering strip is the same or different in every group.

Further, as shown in fig. 1, the sole 1 includes a front sole part 2, a middle sole connecting part 3 and a rear sole part 4, the front sole part 2 is connected with the rear sole part 4 through the middle sole connecting part 3, an included angle is formed between the front sole part 2 and the ground, the lower surface of the front sole part 2 is firstly kept at the included angle with the ground from front to back, then is contacted with the ground, and finally is provided with the included angle with the ground; the thickness of middle sole connecting portion 3 is less than the thickness of preceding sole portion 2 and back sole portion 4 makes keep having certain distance between middle sole connecting portion 3 and the ground, the front portion of back sole portion 4 contacts with ground, and the thickness at the rear portion of back sole portion 4 reduces gradually, makes distance between the rear portion of back sole portion 4 and the ground increases gradually. The utility model provides a most of portable antifatigue shoes are in the in-process of wearing front sole portion 2 and back sole portion 4 and ground contact, and 3 most times of middle sole connecting portion do not contact with ground, play the effect of supporting arch of foot portion, can effectually slow down the atress condition of arch of foot portion.

Further, as shown in fig. 2 to 4, a first shock absorption buffer block group is arranged on the outer side of the lower surface of the front sole part 2, the first shock absorption buffer block group includes a plurality of first shock absorption buffer blocks 5, the first shock absorption buffer blocks 5 are distributed on the front sole part 2 in an arc shape, each first shock absorption buffer block 5 is provided with a transverse anti-skid grain 6 and a longitudinal anti-skid grain 7, the outer side of each first shock absorption buffer block 5 extends to the side surface of the front sole part 2, so that a groove is formed between the first shock absorption buffer block 5 and the first shock absorption buffer block 5 which are located on the side surface part of the front sole part; the second shock absorption buffer block group is arranged on the inner side of the lower surface of the front sole part and comprises a plurality of second shock absorption buffer blocks 8, and the second shock absorption buffer blocks 8 are distributed on the front sole part 2 in an arc shape, each second shock absorption buffer block 8 is provided with a transverse anti-skid grain 6 and a longitudinal first groove 9, and the first grooves 9 are communicated with the second shock absorption and buffer blocks 8, the outer side of each second shock absorption and buffer block 8 extends to the side surface of the front sole part 2, so that a groove is formed between the second shock-absorbing bumper 8 positioned at the side portion of the front sole bottom and the second shock-absorbing bumper 8, the overall length of the second shock absorption buffer block group is smaller than that of the first shock absorption buffer block group, and the rear end of the second shock absorption buffer block group is flush with the rear end of the first shock absorption buffer block group, and the front end of the second shock absorption buffer block group moves backwards relative to the front end of the first shock absorption buffer block group.

Because the outside part atress of sole is bigger at the in-process of walking, consequently in this application, the outside of sole portion sets up more first shock attenuation buffer block in the front, can effectually slow down the atress, and the inboard of sole portion in the front sets up the second shock attenuation buffer block less than first shock attenuation buffer block quantity, when can effectually slow down the atress, reduces the weight that can shoes.

Further, as shown in fig. 2 to 4, a third shock absorbing and buffering block set is respectively disposed on the inner side and the outer side of the middle sole connecting portion 3, the third shock absorbing and buffering block set includes a plurality of third shock absorbing and buffering blocks 10 arranged in a rectangular shape, and each of the outer sides of the third shock absorbing and buffering blocks 10 extends to the side surface of the middle sole connecting portion 3, so that a groove is formed between the third shock absorbing and buffering block 10 located on the side surface portion of the middle sole connecting portion and the third shock absorbing and buffering block 10. Through again in this application set up third shock attenuation buffer block on the middle sole connecting portion 3, can effectually slow down the atress when the object contacts middle sole connecting portion 3, make the human body more comfortable.

Further, as shown in fig. 2 to 4, a fourth shock absorption buffer block group is disposed on the outer side of the lower surface of the rear sole portion 4, the fourth shock absorption buffer block group includes a plurality of fourth shock absorption buffer blocks 11, the fourth shock absorption buffer blocks 11 are distributed on the rear sole portion 4 in an arc shape, each fourth shock absorption buffer block 11 is provided with a transverse anti-slip pattern 6 and a longitudinal anti-slip pattern 7, the outer side of each fourth shock absorption buffer block 11 extends to the side surface of the rear sole portion 4, so that a groove is formed between the fourth shock absorption buffer block 11 located at the side portion of the rear sole portion 4 and the fourth shock absorption buffer block 11; the fifth shock absorption buffer block group is arranged on the inner side of the lower surface of the rear sole part 4 and comprises a plurality of fifth shock absorption buffer blocks 12, and the fifth shock absorption buffer blocks 12 are distributed on the rear sole part 4 in an arc shape, each fifth shock absorption buffer block 12 is provided with a transverse anti-skid grain 6 and a longitudinal second groove 13, and the second grooves communicate with the fifth shock-absorbing buffers 12, the outer side of each of the fifth shock-absorbing buffers 12 extends to the side of the rear shoe bottom 4, so that a groove is formed between the fifth shock-absorbing bumper 12 located at the side portion of the rear sole portion 4 and the fifth shock-absorbing bumper 12, the overall length of the fifth damping buffer block group is greater than the length of the fourth damping buffer block group, and the front end of the fifth damping buffer block group is flush with the front end of the fourth damping buffer block group, and the rear end of the fifth damping buffer block group moves backwards relative to the rear end of the fourth damping buffer block group.

Because the inside part of heel is bigger at the in-process atress of walking, consequently, in this application, the inboard in back sole portion sets up more fifth shock attenuation buffer block, can effectually slow down the atress, and the outside in back sole portion sets up the fourth shock attenuation buffer block less than fifth shock attenuation buffer block quantity, when can effectually slow down the atress, reduces the weight that can shoes.

Further, as shown in fig. 2, the lower surface of the front sole part 2 of the front sides of the first shock absorption buffer block group and the second shock absorption buffer block group is formed with a first shock absorption buffer strip group, the first shock absorption buffer strip group includes a plurality of first shock absorption buffer strips 14 arranged in an arc shape, one end of the first shock absorption buffer strip group is located at the front side of the first shock absorption buffer block group, and the other end of the first shock absorption buffer strip group is located at the front sides of the two shock absorption buffer block groups. This application is through preceding sole portion 2 sets up first shock attenuation buffering strip group, can have effectual effect that slows down the effort to the tiptoe part play.

Further, as shown in fig. 2, a sixth shock absorption buffer block group is arranged between the first shock absorption buffer block group and the second shock absorption buffer block group, the sixth shock absorption buffer block group includes a plurality of fan-shaped sixth shock absorption buffer blocks 15, wherein a larger end of the sixth shock absorption buffer blocks 15 faces the first shock absorption buffer block group, a smaller end of the sixth shock absorption buffer blocks 15 faces the second shock absorption buffer block group, and a second shock absorption buffer strip 16 is formed between the first shock absorption buffer block group and the sixth shock absorption buffer block group. In this application, the position that corresponds with human arch of foot portion on the sole sets up sixth shock attenuation buffering block group, and great one end in the sixth shock attenuation buffering block group towards the great outside of atress, and less one end towards the less inboard of atress, can effectually slow down the atress to arch of foot portion, improves the travelling comfort.

Further, as shown in fig. 2, a seventh shock absorption buffer block group is disposed between the fourth shock absorption buffer block group and the fifth shock absorption buffer block group, the seventh shock absorption buffer block group includes a plurality of seventh shock absorption buffer blocks 17 disposed in a fan shape, wherein a larger end of the seventh shock absorption buffer block 17 faces the fifth shock absorption buffer block group, a smaller end of the seventh shock absorption buffer block 17 faces the fourth shock absorption buffer block group, and a third shock absorption buffer strip 18 is formed between the fifth shock absorption buffer block group and the seventh shock absorption buffer block group. In this application, set up seventh shock attenuation buffering block group with the position that human heel portion corresponds on the sole, and great one end in the seventh shock attenuation buffering block group is inboard more towards the atress, and less one end is towards the less outside of atress, can effectually slow down the atress to arch of foot portion, improves the travelling comfort.

Further, as shown in fig. 2, the lower surface of the rear sole portion 4 at the rear side of the fourth shock absorption buffer block group and the rear side of the fifth shock absorption buffer block group is formed with a fourth shock absorption buffer strip group, the fourth shock absorption buffer strip group includes a plurality of fourth shock absorption buffer strips 19 arranged in an arc shape, one end of the fourth shock absorption buffer strip group is located at the front side of the fourth shock absorption buffer block group, and the other end of the fourth shock absorption buffer strip group is located at the front side of the fifth shock absorption buffer block group. This application is through back sole portion 4 sets up fourth shock attenuation buffering strip group, can have effectual effect that slows down the effort to heel part play.

It should be noted that the sole 1 may be made of a corrosion-resistant, oil-resistant and anti-slip material, so that the sole 1 has the effects of corrosion resistance, oil resistance, anti-slip and the like. In addition, the insole can be made of materials with memory function and sterilization function, has buffer effect, can memorize the shape of the sole of a human body, makes the insole more comfortable, and has the effects of killing fungi and being odorless.

To sum up, this application sets up the snubber block that the multiunit is different with the sole, arch of foot and the position that the heel corresponds on the sole, and the snubber block to different sole positions use different quantity and shape can effectually slow down the energy loss at corresponding position, and has improved the travelling comfort of shoes makes its antifatigue effect better.

Claims

1. A portable antifatigue shoes, includes vamp, shoe-pad and sole (1), the vamp is fixed on sole (1), the shoe-pad setting is in the upper surface of sole (1) and with vamp fixed connection, its characterized in that: the lower surface of sole (1) is formed with a plurality of shock attenuation buffer block and shock attenuation buffering strip, just shock attenuation buffer block and shock attenuation buffering strip divide into the multiunit, and the structure of shock attenuation buffer block and shock attenuation buffering strip is the same or different in every group.

2. The portable fatigue-resistant shoe as recited in claim 1, wherein: the sole (1) comprises a front sole part (2), a middle sole connecting part (3) and a rear sole part (4), the front sole part (2) is connected with the rear sole part (4) through the middle sole connecting part (3), an included angle is formed between the front sole part (2) and the ground, the lower surface of the front sole part (2) is firstly kept at the included angle with the ground from front to back, then is contacted with the ground, and finally is provided with the included angle with the ground; the thickness of middle sole connecting portion (3) is less than the thickness of preceding sole portion (2) and back sole portion (4), makes keep having certain distance between middle sole connecting portion (3) and the ground, the front portion of back sole portion (4) contacts with ground, and the thickness at the rear portion of back sole portion (4) reduces gradually, makes the distance between the rear portion of back sole portion (4) and the ground increases gradually.

3. The portable fatigue-resistant shoe as recited in claim 2, wherein: the first shock absorption buffer block group is arranged on the outer side of the lower surface of the front sole part (2), the first shock absorption buffer block group comprises a plurality of first shock absorption buffer blocks (5), the first shock absorption buffer blocks (5) are distributed on the front sole part (2) in an arc shape, each first shock absorption buffer block (5) is provided with a transverse anti-skidding line (6) and a longitudinal anti-skidding line (7), and the outer side of each first shock absorption buffer block (5) extends to the side surface of the front sole part (2), so that a groove is formed between the first shock absorption buffer block (5) located on the side part of the front sole part and the first shock absorption buffer block (5); the second shock absorption buffer block group is arranged on the inner side of the lower surface of the front sole part and comprises a plurality of second shock absorption buffer blocks (8), the second shock absorption buffer blocks (8) are distributed on the front sole part (2) in an arc shape, each second shock absorption buffer block (8) is provided with a transverse anti-skid grain (6) and a longitudinal first groove (9), the first grooves (9) are communicated with the second shock absorption buffer blocks (8), the outer side of each second shock absorption buffer block (8) extends to the side surface of the front sole part (2), so that grooves are formed between the second shock absorption buffer blocks (8) positioned on the side surface part of the front sole part and the second shock absorption buffer blocks (8), the whole length of the second shock absorption buffer block group is smaller than that of the first shock absorption buffer block group, and the rear end of the second shock absorption buffer block group flushes with the rear end of the first shock absorption buffer block group, the front end of the second shock absorption buffer block group moves backwards relative to the front end of the first shock absorption buffer block group.

4. The portable fatigue-resistant shoe as recited in claim 2, wherein: third shock attenuation buffering block group sets up respectively the inboard and the outside of middle sole connecting portion (3), third shock attenuation buffering block group includes third shock attenuation buffering block (10) that a plurality of rectangle set up, every the outside of third shock attenuation buffering block (10) extends to on the side of middle sole connecting portion (3) for form the recess between third shock attenuation buffering block (10) that are located middle sole connecting portion side part and third shock attenuation buffering block (10).

5. The portable fatigue-resistant shoe as recited in claim 2, wherein: the fourth shock absorption buffer block group is arranged on the outer side of the lower surface of the rear sole part (4), the fourth shock absorption buffer block group comprises a plurality of fourth shock absorption buffer blocks (11), the fourth shock absorption buffer blocks (11) are distributed on the rear sole part (4) in an arc shape, each fourth shock absorption buffer block (11) is provided with a transverse anti-skidding line (6) and a longitudinal anti-skidding line (7), and the outer side of each fourth shock absorption buffer block (11) extends to the side surface of the rear sole part (4), so that a groove is formed between the fourth shock absorption buffer block (11) and the fourth shock absorption buffer block (11) which are positioned on the side part of the rear sole part (4); the fifth shock absorption buffer block group is arranged on the inner side of the lower surface of the rear sole part (4), the fifth shock absorption buffer block group comprises a plurality of fifth shock absorption buffer blocks (12), the fifth shock absorption buffer blocks (12) are distributed on the rear sole part (4) in an arc shape, each fifth shock absorption buffer block (12) is provided with a transverse anti-skidding thread (6) and a longitudinal second groove (13), the second grooves are communicated with the fifth shock absorption buffer blocks (12), the outer side of each fifth shock absorption buffer block (12) extends to the side surface of the rear sole part (4), so that a groove is formed between the fifth shock absorption buffer block (12) and the fifth shock absorption buffer block (12) which are positioned on the side part of the rear sole part (4), the whole length of the fifth shock absorption buffer block group is greater than that of the fourth shock absorption buffer block group, and the front end of the fifth shock absorption buffer block group flushes with the front end of the fourth shock absorption buffer block group, and the rear end of the fifth damping buffer block group moves backwards relative to the rear end of the fourth damping buffer block group.

6. A portable anti-fatigue shoe as recited in claim 3, wherein: the lower surface of the front sole part (2) of the front side of the first shock absorption buffer block group and the second shock absorption buffer block group is provided with a first shock absorption buffer strip group, the first shock absorption buffer strip group comprises a plurality of first shock absorption buffer strips (14) which are arranged in an arc shape, one end of the first shock absorption buffer strip group is located on the front side of the first shock absorption buffer block group, and the other end of the first shock absorption buffer strip group is located on the front sides of the two shock absorption buffer block groups.

7. A portable anti-fatigue shoe as recited in claim 3, wherein: be provided with sixth shock attenuation buffering block group between first shock attenuation buffering block group and the second shock attenuation buffering block group, sixth shock attenuation buffering block group includes fan-shaped sixth shock attenuation buffering block (15) that sets up of a plurality of, wherein great one end orientation in sixth shock attenuation buffering block (15) first shock attenuation buffering block group, less one end orientation in sixth shock attenuation buffering block (15) second shock attenuation buffering block group, just first shock attenuation buffering block group with be formed with second shock attenuation buffering strip (16) between the sixth shock attenuation buffering block group.

8. The portable fatigue-resistant shoe as recited in claim 5, wherein: be provided with seventh shock attenuation buffer block group between fourth shock attenuation buffer block group and the fifth shock attenuation buffer block group, seventh shock attenuation buffer block group includes the fan-shaped seventh shock attenuation buffer block (17) that sets up of a plurality of, wherein great one end orientation in seventh shock attenuation buffer block (17) fifth shock attenuation buffer block group, less one end orientation in seventh shock attenuation buffer block (17) fourth shock attenuation buffer block group, just fifth shock attenuation buffer block group with be formed with third shock attenuation buffer strip (18) between the seventh shock attenuation buffer block group.

9. The portable fatigue-resistant shoe as recited in claim 5, wherein: the lower surface of the rear sole part (4) of the rear side of the fourth shock absorption buffer block group and the rear side of the fifth shock absorption buffer block group is provided with a fourth shock absorption buffer strip group, the fourth shock absorption buffer strip group comprises a plurality of fourth shock absorption buffer strips (19) which are arranged in an arc shape, one end of the fourth shock absorption buffer strip group is located at the front side of the fourth shock absorption buffer block group, and the other end of the fourth shock absorption buffer strip group is located at the front side of the fifth shock absorption buffer block group.

10. The portable fatigue-resistant shoe as recited in claim 1, wherein: the sole (1) is made of corrosion-resistant, oil-resistant and anti-skid materials; the insole is made of materials with memory function and sterilization function.