CN216089164U

CN216089164U - Novel inhale shake long-life sole

Info

Publication number: CN216089164U
Application number: CN202121728759.3U
Authority: CN
Inventors: 周长海; 周鑫
Original assignee: Wenzhou Chuanglai Shoe Material Co ltd
Current assignee: Wenzhou Chuanglai Shoe Material Co ltd
Priority date: 2021-07-27
Filing date: 2021-07-27
Publication date: 2022-03-22
Anticipated expiration: 2031-07-27

Abstract

The application relates to the technical field of sole manufacturing, in particular to a novel shock-absorbing long-life sole, it includes the sole board, the bottom of sole board is equipped with the buffering and inhales shake mechanism, the buffering is inhaled shake the mechanism and is included first to touch to the ground the shoe board, the second touches to the ground the shoe board and two sets of flexible buffering subassemblies at least, first one side that touches to the ground the shoe board is articulated and articulated department is close to the preceding sole of sole board with the bottom surface of sole board, the second touches to the ground the shoe board and first the opposite side that the sole board kept away from with touching to the ground the shoe board is articulated, the flexible buffering subassembly of all groups evenly locates the both sides that the sole board deviates from each other, the one end of flexible buffering subassembly is articulated and articulated department is close to the heel with the sole board, the remaining one end of flexible buffering subassembly touches to the first shoe board that touches to the ground, the second touches to the shoe board and articulates simultaneously, this application can improve the inhaling of running shoes sole, in order to reach the requirement of wearing person to running shoes damping performance.

Description

Novel inhale shake long-life sole

Technical Field

The application relates to the technical field of sole manufacturing, in particular to a novel shock-absorbing long-life sole.

Background

Running shoes, also known as sports shoes, can be divided into three categories of providing shock absorption, providing stability and providing motion control according to biomechanical requirements.

Providing shock absorbing running shoes, which generally have softer midsole soles, to assist the foot in evenly stressing during exercise and to help the foot to absorb shock; the body of the shoe is generally lighter and the stability may be relatively poor. Running shoes that provide stability, the sole typically has a post that is evenly stressed or the inside has a sandwich structure. Running shoes that provide motion control, which are typically stiffer and capable of reducing or controlling excessive pronation of the foot and preventing ankle injuries, are typically heavier in weight than other running shoes.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: the measures for improving the shock absorption and buffer capacity of the running shoe sole are realized by changing the material or the shape of the sole, but after the measures are taken, the shock absorption and buffer capacity of the running shoe sole is still limited and still cannot meet the requirements of a wearer, and the shock absorption and buffer capacity of the running shoe sole needs to be improved.

SUMMERY OF THE UTILITY MODEL

In order to improve the shake shock-absorbing cushioning property of running shoes sole to reach the requirement of wearing person to the running shoes shock-absorbing performance, this application provides a novel inhale shake long-life sole.

A novel inhale shake long-life sole adopts following technical scheme:

the utility model provides a novel inhale shake long-life sole, including the sole board, the bottom of sole board is equipped with the buffering and inhales shake mechanism, the buffering is inhaled shake the mechanism and is included first to touch the shoes board, the second touches the shoes board and two sets of flexible buffering subassemblies at least, first one side that touches the shoes board and the articulated preceding sole that just articulates the department and is close to the sole board that touches down, the second touches the shoes board and articulates with the first opposite side that touches down the shoes board and keep away from the sole board that touches down, the both sides that the sole board deviates from each other are evenly located to the flexible buffering subassembly of all groups, the one end of flexible buffering subassembly is close to the heel with articulated and articulated department of sole board, the surplus one end and the first shoes board that touches down, the second touches down the shoes board and articulates simultaneously.

By adopting the technical scheme, when a wearer wears the running shoe to run, when stepping on the ground, the first ground contacting shoe plate and the second ground contacting shoe plate gradually approach and contact the sole plate, and the telescopic buffer assemblies on the two sides of the sole plate shorten and absorb the vibration and energy in the process; when the wearer lifts up the foot, flexible buffering subassembly resumes former length gradually and releases the absorbed energy, and ground provides ascending thrust for the wearer through second touchdown shoes board, flexible buffering subassembly and sole board, makes the wearer can run more easily freely, and stronger shock attenuation effect also can protect wearer's knee. The shock absorption mechanism can improve the shock absorption and buffer performance of the running shoe sole so as to meet the requirement of a wearer on the shock absorption performance of the running shoe.

Optionally, the telescopic buffer assembly comprises a main telescopic female rod, a main telescopic sub-rod and a main telescopic spring, wherein a main telescopic insert rod is fixedly arranged at one end of the main telescopic female rod, the main telescopic insert rod is inserted into the main telescopic sub-rod and is in sliding fit with the main telescopic sub-rod, and the main telescopic spring is sleeved on the main telescopic insert rod and is used for applying elasticity to the main telescopic female rod and the main telescopic sub-rod at the same time; the one end that main flexible mother pole kept away from main flexible son pole contacts to the ground with first, the second simultaneously shoes board is articulated, and main flexible son pole keeps away from near the heel of main flexible mother pole's one end and sole board articulated.

By adopting the technical scheme, when a wearer steps on the ground by wearing the running shoe, the first ground-contacting shoe plate and the second ground-contacting shoe plate are simultaneously contacted with the sole plate, and the first ground-contacting shoe plate, the second ground-contacting shoe plate and the front sole part of the sole plate are contacted with the ground; the main telescopic female rod is gradually close to the main telescopic sub-rod, the main telescopic inserted rod is continuously inserted into the main telescopic sub-rod, the main telescopic spring is continuously compressed and shortened, and the main telescopic spring absorbs the vibration generated by the wearer during running and stores the energy; when the wearer continues to run and lifts the foot, the main extension spring gradually recovers the original length, the main extension spring simultaneously acts on the main extension female rod and the main extension sub-rod with the elasticity, meanwhile, the ground reacts the elasticity of the main extension spring on the heel of the sole plate through the main extension female rod, the main extension spring and the main extension sub-rod, an upward reaction force is provided for the wearer, and the wearer can run more easily and freely.

Optionally, a plurality of scattered convex columns are fixedly arranged on the bottom surfaces of the sole plate, the first ground contact shoe plate and the second ground contact shoe plate, which are in contact with the ground.

Through adopting above-mentioned technical scheme, the projection can increase the wearing person and to the effect of grabbing ground of ground at the in-process of running, prevents to skid, and the wearing person can control the speed of running and the gesture of running more steadily, and scram or line change more smoothly, the wearing person can run more steadily.

Optionally, a plurality of anti-slip lines are fixedly arranged on the bottom surface of the convex column, which is in contact with the ground.

Through adopting above-mentioned technical scheme, the contact frictional force of projection and ground can be increased to the antiskid line, and runner dress running shoes can step on ground more steadily at the in-process that contacts ground.

Optionally, the tail part of the second ground-contacting shoe plate and the tail part of the shoe bottom plate are provided with an auxiliary buffer assembly for buffering and damping.

Through adopting above-mentioned technical scheme, supplementary flexible buffering subassembly of buffering subassembly cooperation can cushion the shock attenuation for the sole board jointly, further improves the buffering shock attenuation effect of sole board.

Optionally, the auxiliary buffer assembly comprises an auxiliary telescopic female rod, an auxiliary telescopic sub-rod and an auxiliary telescopic spring, an auxiliary telescopic insert rod is fixedly arranged at one end of the auxiliary telescopic female rod, the auxiliary telescopic insert rod is inserted into the auxiliary telescopic sub-rod and is in sliding fit with the auxiliary telescopic sub-rod, and the auxiliary telescopic spring is sleeved with the auxiliary telescopic insert rod and used for applying elasticity to the auxiliary telescopic female rod and the auxiliary telescopic sub-rod simultaneously; the end parts of the auxiliary telescopic female rod and the auxiliary telescopic sub rod, which deviate from each other, are hinged with the second ground contact shoe plate and the shoe sole plate respectively.

Through adopting above-mentioned technical scheme, step on to the in-process on ground at the wearer, the second contacts to earth the shoe plate and is close to the sole board gradually, and vice flexible female pole drives in vice flexible inserted bar inserts vice flexible sub-pole gradually, and vice extension spring is shortened by the compression gradually, and vice extension spring absorbs the vibrations that the wearer produced when running and carries out temporary storage with the energy, improves the inhaling of sole board and shakes buffering effect. Subsequently, when the wearer lifts the foot and continues to run, the auxiliary extension spring gradually restores to the original length, the elastic force is transmitted to the heel of the sole plate through the auxiliary extension sub-rods, and upward thrust is applied to the wearer, so that the wearer can more easily and quickly continue to run.

Optionally, the sole plate, the first ground contact shoe plate and the second ground contact shoe plate are respectively made of EVA foaming raw materials.

By adopting the technical scheme, the EVA has the characteristics of good softness, elasticity, good flexibility at low temperature, good chemical stability, excellent aging resistance and ozone resistance and no toxicity; adopt EVA foaming raw and other materials to make the sole board, first contact to earth shoe board and second contact to earth the shoe board, can make the sole board, first contact to earth shoe board and second contact to earth the shoe board and have higher elasticity, increase the buffering shock attenuation effect of sole board self, make the wearing person run the walking more comfortablely.

Optionally, a plurality of shock-absorbing convex strips are fixedly arranged on the circumferential side surface of the sole plate.

Through adopting above-mentioned technical scheme, when the barrier on the wearer's careless collision periphery, the shock attenuation sand grip can at first contact with the barrier, and the shock attenuation sand grip will absorb the buffering at this collision in-process's interact power, and the buffering shock absorption ability of sole board is increased from the side, carries out the protection constantly to wearer's foot.

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

1. the buffering and shock absorbing mechanism can improve the shock absorbing and buffering performance of the running shoe sole so as to meet the requirement of a wearer on the shock absorbing performance of the running shoe;

2. the auxiliary buffer assembly is matched with the telescopic buffer assembly to perform buffer and shock absorption on the sole plate together, so that the buffer and shock absorption effects of the sole plate are further improved;

3. the shock attenuation sand grip increases the buffering shock absorption ability of sole board from the sole board side, protects wearer's foot constantly.

Drawings

Fig. 1 is a schematic structural view of a main extension spring of a novel shock-absorbing long-life sole according to an embodiment of the present application in a natural extension state;

fig. 2 is a schematic structural view of the main extension spring of the novel shock-absorbing long-life sole according to the embodiment of the present application, which is compressed to the shortest state.

Description of reference numerals: 1. a sole plate; 11. shock absorption convex strips; 2. a buffer shock absorption mechanism; 3. a first ground engaging shoe plate; 4. a second ground engaging shoe plate; 5. a telescopic buffer component; 51. a main telescopic female rod; 511. a main telescopic inserted link; 52. a main telescopic sub-rod; 53. a main extension spring; 6. a convex column; 61. anti-skid lines; 7. an auxiliary buffer assembly; 71. a secondary telescopic female rod; 711. an auxiliary telescopic inserted link; 72. an auxiliary telescopic sub-rod; 73. and an auxiliary extension spring.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses novel inhale shake long-life sole, refer to fig. 1 and fig. 2, novel inhale shake long-life sole of shake includes sole board 1, buffering and inhale shake mechanism 2 and supplementary buffering subassembly 7. The shock absorbing mechanism 2 comprises a first touchdown shoe plate 3, a second touchdown shoe plate 4 and at least two sets of telescopic buffer components 5, wherein the telescopic buffer components 5 are provided with two sets in the embodiment. The pin shaft simultaneously penetrates through one side of the first ground-contacting shoe plate 3 and the bottom surface of the shoe bottom plate 1, one side of the first ground-contacting shoe plate 3 is hinged with the shoe bottom plate 1, and the hinged part is close to the front sole of the shoe bottom plate 1; the second ground-contacting shoe plate 4 is hinged with the other side, far away from the sole plate 1, of the first ground-contacting shoe plate 3, the pin shaft simultaneously penetrates through the second ground-contacting shoe plate 4 and the first ground-contacting shoe plate 3, and the second ground-contacting shoe plate 4 is hinged with the first ground-contacting shoe plate 3. Two sets of flexible buffering subassemblies 5 are located the left and right sides that sole plate 1 deviates from each other respectively, and the one end of flexible buffering subassembly 5 is close to the heel with articulated and articulated department of sole plate 1, and the remaining one end of flexible buffering subassembly 5 is articulated simultaneously with first shoes board 3, the second shoes board 4 that contacts to earth. The auxiliary buffer component 7 is arranged between the tail part of the second touchdown shoe plate 4 and the tail part of the shoe bottom plate 1 and is used for auxiliary buffer and shock absorption.

When a wearer wears the running shoe to run, when stepping on the ground, the first ground contacting shoe plate 3 and the second ground contacting shoe plate 4 gradually approach and contact the sole plate 1, and the telescopic buffer assemblies 5 on the two sides of the sole plate 1 shorten and absorb the vibration and energy in the process; when the wearer lifts up the foot, flexible buffering subassembly 5 resumes former length gradually and releases the energy that absorbs, ground provides ascending thrust for the wearer through second to earth shoe plate 4, flexible buffering subassembly 5 and sole board 1, makes the wearer can easily run freely more, and stronger shock attenuation effect also can protect wearer's knee. The shock absorption mechanism 2 can improve the shock absorption and buffering performance of the running shoe sole so as to meet the requirement of a wearer on the shock absorption performance of the running shoe. Supplementary buffering subassembly 7 cooperation flexible buffering subassembly 5 can cushion the shock attenuation for sole board 1 jointly, further improves sole board 1's buffering shock attenuation effect.

Referring to fig. 1 and 2, the telescopic buffer assembly 5 includes a main telescopic female rod 51, a main telescopic sub-rod 52, and a main telescopic spring 53. A main telescopic insertion rod 511 is integrally formed at one end of the main telescopic female rod 51, the main telescopic insertion rod 511 is inserted into the main telescopic sub-rod 52 and is in sliding fit with the main telescopic sub-rod 52, the main telescopic insertion rod 511 is sleeved with a main telescopic spring 53, and two ends of the main telescopic spring 53 are respectively abutted against the main telescopic female rod 51 and the main telescopic sub-rod 52. One end of the main telescopic female rod 51, which is far away from the main telescopic sub-rod 52, is hinged with the first ground contact shoe plate 3 and the second ground contact shoe plate 4 at the same time, the pin shaft penetrates through the main telescopic female rod 51, the first ground contact shoe plate 3 and the second ground contact shoe plate 4 at the same time, and the main telescopic female rod 51, the first ground contact shoe plate 3 and the second ground contact shoe plate 4 are hinged at the same time. The end of the primary telescopic sub-rod 52 remote from the primary telescopic female rod 51 is hinged to the side of the sole plate 1 near the heel. In the natural state of the main extension spring 53, the end of the main extension female rod 51 away from the main extension sub-rod 52 is away from the sole plate 1.

When a wearer steps on the ground with the running shoe, the first ground-contacting shoe plate 3 and the second ground-contacting shoe plate 4 simultaneously contact the sole plate 1, and the front sole parts of the first ground-contacting shoe plate 3, the second ground-contacting shoe plate 4 and the sole plate 1 contact the ground; the main telescopic female rod 51 is gradually close to the main telescopic sub-rod 52, the main telescopic inserting rod 511 is continuously inserted into the main telescopic sub-rod 52, the main telescopic spring 53 is continuously compressed and shortened, and the main telescopic spring 53 absorbs the vibration generated by the wearer during running and stores the energy; when the wearer continues to run and lift the foot, the main extension spring 53 gradually recovers to the original length, the main extension spring 53 simultaneously acts on the main extension female rod 51 and the main extension sub-rod 52, meanwhile, the ground reacts the elastic force of the main extension spring 53 on the heel of the sole plate 1 through the main extension female rod 51, the main extension spring 53 and the main extension sub-rod 52, an upward reaction force is provided for the wearer, and the wearer can run more easily and freely.

Referring to fig. 1 and 2, the auxiliary buffer assembly 7 is located in the middle of the width of the sole plate 1, and the auxiliary buffer assembly 7 includes an auxiliary telescopic female rod 71, an auxiliary telescopic sub-rod 72 and an auxiliary telescopic spring 73. An auxiliary telescopic insertion rod 711 is integrally formed at one end of the auxiliary telescopic female rod 71, and the auxiliary telescopic insertion rod 711 is inserted into the auxiliary telescopic sub-rod 72 and is in sliding fit with the auxiliary telescopic sub-rod 72. The sub extension spring 73 is fitted over the sub extension insertion rod 711, and both ends of the sub extension spring 73 are respectively abutted against the sub extension female rod 71 and the sub extension sub-rod 72. The end parts of the auxiliary telescopic female rod 71 and the auxiliary telescopic sub-rod 72 which are deviated from each other are respectively hinged with the second ground contact shoe plate 4 and the shoe bottom plate 1. When the secondary extension spring 73 is in a natural state, the rear end of the second ground contacting shoe plate 4 is far away from the rear end of the shoe sole plate 1.

In the process that the wearer steps on ground, the second shoes board 4 that contacts to ground is close to sole board 1 gradually, and vice flexible female pole 71 drives vice flexible inserted bar 711 and inserts gradually in vice flexible sub-pole 72, and vice extension spring 73 is compressed gradually and is shortened, and vice extension spring 73 absorbs the vibrations that the wearer produced when running and carries out temporary storage with the energy, improves the shock-absorbing buffering effect of sole board 1. Subsequently, when the wearer lifts the foot and continues running, the auxiliary extension spring 73 gradually returns to its original length, transmits elastic force to the heel of the sole plate 1 through the auxiliary extension sub-rod 72, and applies upward thrust to the wearer, so that the wearer can continue running more easily and quickly.

Referring to fig. 1 and 2, a plurality of scattered convex columns 6 are fixedly connected to the bottom surfaces of the sole plate 1, the first ground contacting shoe plate 3 and the second ground contacting shoe plate 4, which are contacted with the ground, and a plurality of anti-skid grains 61 are formed integrally on the bottom surfaces of the convex columns 6, which are contacted with the ground, and are distributed at equal intervals. The projection 6 can increase the ground effect of grabbing of wearing person to ground at the in-process of running, prevents to skid, and the wearing person can control the speed of running and the gesture of running more steadily, and scram or line change more smoothly, and the wearing person can run more steadily. The anti-slip lines 61 can increase the contact friction force of the convex columns 6 and the ground, so that a runner can stably step on the ground in the process of contacting the ground with the running shoe.

Referring to fig. 1 and 2, the sole plate 1, the first ground-contacting shoe plate 3, and the second ground-contacting shoe plate 4 are each made of EVA foam. EVA has the characteristics of good softness, elasticity, good flexibility at low temperature, good chemical stability, excellent aging resistance and ozone resistance, and no toxicity; adopt EVA foaming raw and other materials to make sole plate 1, first 3 and the second of contacting to the ground shoes board 4 that contacts to the ground, can make sole plate 1, first 3 and the second of contacting to the ground shoes board 4 that contact to the ground have higher elasticity, increase the buffering shock attenuation effect of sole plate 1 self, make the wearing person run the walking more comfortably.

Referring to fig. 1 and 2, a plurality of shock-absorbing ribs 11 are fixedly connected to the circumferential side of the sole plate 1, and the shock-absorbing ribs 11 extend obliquely and form an included angle with the length direction of the sole plate 1. When the wearer carelessly collides with the surrounding obstacles, the shock absorption convex strips 11 can be firstly contacted with the obstacles, the interaction force of the shock absorption convex strips 11 in the collision process is absorbed and buffered, the buffering and shock absorption capacity of the sole plate 1 is increased from the side, and the feet of the wearer are protected constantly.

The implementation principle of this application embodiment a novel inhale shake long-life sole does: when a wearer steps on the ground with the running shoe, the first ground-contacting shoe plate 3 and the second ground-contacting shoe plate 4 simultaneously contact the sole plate 1, and the front sole parts of the first ground-contacting shoe plate 3, the second ground-contacting shoe plate 4 and the sole plate 1 contact the ground; the main telescopic female rod 51 is gradually close to the main telescopic sub-rod 52, the main telescopic inserting rod 511 is continuously inserted into the main telescopic sub-rod 52, the main telescopic spring 53 is continuously compressed and shortened, and the main telescopic spring 53 absorbs the vibration generated by the wearer during running and stores the energy; when the wearer continues to run and lift the foot, the main extension spring 53 gradually recovers to the original length, the main extension spring 53 simultaneously acts on the main extension female rod 51 and the main extension sub-rod 52, meanwhile, the ground reacts the elastic force of the main extension spring 53 on the heel of the sole plate 1 through the main extension female rod 51, the main extension spring 53 and the main extension sub-rod 52, an upward reaction force is provided for the wearer, and the wearer can run more easily and freely.

Meanwhile, the second ground contact shoe plate 4 is gradually close to the shoe sole plate 1, the auxiliary telescopic female rod 71 drives the auxiliary telescopic inserting rod 711 to be gradually inserted into the auxiliary telescopic sub-rod 72, the auxiliary telescopic spring 73 is gradually compressed and shortened, the auxiliary telescopic spring 73 absorbs the vibration generated by the wearer during running and temporarily stores the energy, and the shock absorption and buffering effects of the shoe sole plate 1 are improved. Subsequently, when the wearer lifts the foot and continues running, the auxiliary extension spring 73 gradually returns to its original length, transmits elastic force to the heel of the sole plate 1 through the auxiliary extension sub-rod 72, and applies upward thrust to the wearer, so that the wearer can continue running more easily and quickly.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a novel inhale shake long-life sole, includes sole board (1), its characterized in that: the bottom of sole board (1) is equipped with the buffering and inhales shake mechanism (2), the buffering is inhaled shake mechanism (2) and is included first to touch to the earth shoe plate (3), second to touch to the earth shoe plate (4) and at least two sets of flexible buffer subassembly (5), first to touch to the earth shoe plate (3) one side and the articulated preceding sole that is close to sole board (1) of bottom surface articulated and articulated department of sole board (1), second to touch to the earth shoe plate (4) and first to touch to the earth shoe plate (3) the opposite side of keeping away from sole board (1) articulated, the both sides that sole board (1) deviated from each other are evenly located in flexible buffer subassembly (5) of all groups, the one end of flexible buffer subassembly (5) is close to the heel with sole board (1) articulated and articulated department, the remaining one end and the first shoe plate (3) that touch to the earth of flexible buffer subassembly (5), the second touches to the earth shoe plate (4) and articulates simultaneously.

2. The novel shock absorbing long life sole as claimed in claim 1, wherein: the telescopic buffer assembly (5) comprises a main telescopic female rod (51), a main telescopic sub-rod (52) and a main telescopic spring (53), wherein a main telescopic inserting rod (511) is fixedly arranged at one end of the main telescopic female rod (51), the main telescopic inserting rod (511) is inserted into the main telescopic sub-rod (52) and is in sliding fit with the main telescopic sub-rod (52), and the main telescopic spring (53) is sleeved with the main telescopic inserting rod (511) and used for applying elasticity to the main telescopic female rod (51) and the main telescopic sub-rod (52) at the same time; one end of the main telescopic female rod (51) far away from the main telescopic male rod (52) is hinged to the first ground contact shoe plate (3) and the second ground contact shoe plate (4) at the same time, and one end of the main telescopic male rod (52) far away from the main telescopic female rod (51) is hinged to the position near the heel of the shoe bottom plate (1).

3. The novel shock absorbing long life sole as claimed in claim 1, wherein: the bottom surfaces of the sole plate (1), the first ground contact shoe plate (3) and the second ground contact shoe plate (4) which are contacted with the ground are fixedly provided with a plurality of scattered convex columns (6).

4. A novel shock absorbing long life sole as claimed in claim 3, wherein: and a plurality of anti-skid grains (61) are fixedly arranged on the bottom surface of the convex column (6) contacting with the ground.

5. The novel shock absorbing long life sole as claimed in claim 1, wherein: the tail part of the second touchdown shoe plate (4) and the tail part of the sole plate (1) are provided with an auxiliary buffer assembly (7) for buffering and damping.

6. The novel shock absorbing long life sole of claim 5, wherein: the auxiliary buffer assembly (7) comprises an auxiliary telescopic female rod (71), an auxiliary telescopic sub-rod (72) and an auxiliary telescopic spring (73), an auxiliary telescopic inserting rod (711) is fixedly arranged at one end of the auxiliary telescopic female rod (71), the auxiliary telescopic inserting rod (711) is inserted into the auxiliary telescopic sub-rod (72) and is in sliding fit with the auxiliary telescopic sub-rod (72), and the auxiliary telescopic inserting rod (711) is sleeved on the auxiliary telescopic spring (73) and is used for applying elasticity to the auxiliary telescopic female rod (71) and the auxiliary telescopic sub-rod (72) at the same time; the end parts of the auxiliary telescopic female rod (71) and the auxiliary telescopic secondary rod (72) which are deviated from each other are respectively hinged with the second ground contact shoe plate (4) and the shoe bottom plate (1).

7. The novel shock absorbing long life sole as claimed in claim 1, wherein: the sole plate (1), the first ground contact shoe plate (3) and the second ground contact shoe plate (4) are respectively the sole plate (1), the first ground contact shoe plate (3) and the second ground contact shoe plate (4) which are made of EVA foaming raw materials.

8. The novel shock absorbing long life sole as claimed in claim 1, wherein: the circumferential side surface of the sole plate (1) is fixedly provided with a plurality of shock absorption convex strips (11).