CN204566845U - Shock-absorbing sound insulating pad structure - Google Patents

Abstract

A kind of shock-absorbing sound insulating pad structure, described shock-absorbing sound insulating pad structure comprises: a pad, and this pad is the structure that can bend, and this pad is sequentially laminated with a sound absorbing layer, a shock suction layer and a cushion from top to bottom; Wherein, this sound absorbing layer is made up of the first foaming body of a soft, this shock suction layer at least comprises a shock-absorbing sublayer, and this shock-absorbing sublayer is sequentially made up of the 4th foaming body of the second foaming body of a high rigidity, the 3rd foaming body of a high-tension and a high rigidity from top to bottom, this cushion by a high rigidity the 5th foaming body and multiple be fixed on the 5th foaming body bottom and buffer cell spaced apart formed.The shock-absorbing sound insulating pad structure that the utility model provides has the function of sound-absorbing sound insulation, shock-absorbing damping and buffering.

Description

Shock-absorbing sound insulating pad structure

Technical field

The utility model relates to a kind of neonychium structure, espespecially a kind of shock-absorbing sound insulating pad structure with sound-absorbing sound insulation, shock-absorbing damping and pooling feature.

Background technology

Current existing pedal pad; such as play the pedal pad of video game (TV GAME); or home-use children are crashproof or shatter-resistant pedal pad; usually problem soft or really up to the mark was had; easily produce when sole impacts and significantly cave in or produce violent vibrations and noise, make existing pedal pad cannot simultaneously with the characteristic of sound-absorbing sound insulation, shock-absorbing damping and buffering.

So improving of the above-mentioned defect of the present inventor's thoughts is that spy concentrates on studies and coordinates the utilization of scientific principle, finally propose a kind of reasonable in design and effectively improve the utility model of above-mentioned defect.

Utility model content

Main purpose of the present utility model is to provide a kind of shock-absorbing sound insulating pad structure, has the function of sound-absorbing sound insulation, shock-absorbing damping and buffering.

In order to reach effect described above, the utility model provides a kind of shock-absorbing sound insulating pad structure, comprising: a pad, and this pad is the structure that can bend, and this pad is sequentially laminated with a sound absorbing layer, a shock suction layer and a cushion from top to bottom; Wherein, this sound absorbing layer is made up of the first foaming body of a soft, and this shock suction layer at least comprises a shock-absorbing sublayer, and this shock-absorbing sublayer is sequentially made up of the 4th foaming body of the second foaming body of a high rigidity, the 3rd foaming body of a high-tension and a high rigidity from top to bottom, and this cushion by a high rigidity the 5th foaming body and multiple be fixed on the 5th foaming body bottom and buffer cell spaced apart formed.

Further, described shock suction layer also comprises another shock-absorbing sublayer, another shock-absorbing sublayer described is sequentially made up of the 8th foaming body of the 6th foaming body of a high rigidity, the 7th foaming body of a high-tension and a high rigidity from top to bottom, and described shock-absorbing sublayer and another shock-absorbing sublayer described are each other in stacking setting.

Further, described pad also comprises an end sound absorbing layer, and sound absorbing layer of the described end is made up of the 9th foaming body of a soft, and sound absorbing layer of the described end and described sound absorbing layer form the removable Bag structure that is coated on described shock suction layer and described cushion jointly.

Further, described pad also comprises an end sound absorbing layer, and sound absorbing layer of the described end is positioned at the bottom of described cushion, and sound absorbing layer of the described end is formed with acoutic fibre board cloth or sandwich eyelet fabric.

Further, described pad also comprises a protective layer, and described protective layer is positioned at the bottom of sound absorbing layer of the described end, and described protective layer is formed with the rubber of on-slip or expanded material.

Further, the hardness range of described second foaming body and described 4th foaming body is respectively between 60 degree to 90 degree, and the hardness of described second foaming body and described 4th foaming body is greater than the hardness of described 3rd foaming body, and described second foaming body and described 4th foaming body are formed with multiple through hole respectively.

Further, described 3rd foaming body is the memory-type elastic force latex of high temperature foaming.

Further, the outline of described buffer cell is respectively convex shape stereochemical structure, and described buffer cell forms curved stereochemical structure jointly.

Further, described buffer cell is respectively a buffer air bag.

Further, described buffer cell is communicated with each other by a communication channel.

Further, the inlet channel that described buffer cell and described communication channel also pour into an energy supplied gas is communicated with.

Further, described buffer cell is shaped in the bottom of described 5th foaming body.

Further, described buffer cell is bonding on the bottom of described 5th foaming body.

Further, described buffer cell inside has been respectively charged into a filler.

Further, described filler is foam or silica gel.

Further, described shock-absorbing sound insulating pad structure also comprises another pad, and described pad and another pad described can mutual group connect discretely.

In sum, the utility model at least has the following advantages: shock-absorbing sound insulating pad structure provided by the utility model by the stacked setting of sound absorbing layer, shock suction layer and cushion to reach the effect of sound-absorbing, shock-absorbing and buffering.Further, the noise sent when can be made up of flexible foamed material by sound absorbing layer thus sole impact pad surface layer can be reduced.Again, a shock-absorbing sublayer is at least comprised and shock-absorbing sublayer can be cascading from top to bottom by three foaming bodies and press from both sides an elastomeric foaming body by the foaming body of two high rigidity and form sandwich structure by shock suction layer, there is too soft sensation when enabling shock suction layer simulate floor hardness and sole can not be made to trample, and reach the effect slowing down vibrations and reduce impulsive sound simultaneously.In addition, also can comprise the repeatedly stacking of shock-absorbing sublayer, another shock-absorbing sublayer or more by shock suction layer and impulsive force to be absorbed layer by layer and dispersed, to reach the effect more slowing down vibrations and reduce impulsive sound.Moreover, by the foaming body of a high rigidity and multiplely can be fixed on bottom this foaming body and buffer cell spaced apart formed by cushion, and these buffer cells can be pressed down when this foaming body is subject to the impact from top, make the temporary transient compression of these buffer cells and by the dispersion of impulsive force buffering, more improve buffering and the sound-absorbing effect of pad.

Accompanying drawing explanation

Fig. 1 is the cross-sectional schematic of shock-absorbing sound insulating pad structure first embodiment of the present utility model.

Fig. 2 is the cross-sectional schematic of shock-absorbing sound insulating pad structure second embodiment of the present utility model.

Fig. 3 is the cross-sectional schematic of shock-absorbing sound insulating pad structure the 3rd embodiment of the present utility model.

Fig. 4 is the cross-sectional schematic of shock-absorbing sound insulating pad structure the 4th embodiment of the present utility model.

Fig. 5 is the cross-sectional schematic of shock-absorbing sound insulating pad structure the 5th embodiment of the present utility model.

Fig. 6 is the cross-sectional schematic of shock-absorbing sound insulating pad structure the 6th embodiment of the present utility model.

Fig. 7 is the cross-sectional schematic of shock-absorbing sound insulating pad structure the 7th embodiment of the present utility model.

Fig. 8 is the cross-sectional schematic of shock-absorbing sound insulating pad structure the 8th embodiment of the present utility model.

Fig. 9 A is the schematic perspective view of shock-absorbing sound insulating pad structure the 9th embodiment of the present utility model.

Fig. 9 B is the receiving state schematic diagram of shock-absorbing sound insulating pad structure the 9th embodiment of the present utility model.

Figure 10 A is the schematic perspective view of shock-absorbing sound insulating pad structure the tenth embodiment of the present utility model.

Figure 10 B is the receiving state schematic diagram of shock-absorbing sound insulating pad structure the tenth embodiment of the present utility model.

[symbol description]

Pad 100,200,300,400,500,600,700,800,900,1000

Sound absorbing layer 1

Shock suction layer 2

Shock-absorbing sublayer 20,21

Cushion 3

End sound absorbing layer 4

Protective layer 5

First foaming body L1

Second foaming body L2

Through hole L21

3rd foaming body L3

4th foaming body L4

Through hole L41

5th foaming body L5

6th foaming body L6

7th foaming body L7

8th foaming body L8

9th foaming body L9

Buffer cell M1

Buffer cell M2

Buffer cell M3

Communication channel M31

Inlet channel M32

Buffer cell M4

Buffer cell M5

Filler M51

Gas A

First group connecting part 1001

Second group connecting part 1002

Detailed description of the invention

For can further understand feature of the present utility model and technology contents, the utility model will coordinate embodiment and being graphicly specified in down of enclosing, and those of ordinary skill in the art the content disclosed by this description can understand other advantages of the present utility model and effect easily.The utility model is also implemented by other different instantiations or is applied, and the every details in this description also based on different viewpoints and application, and can carry out various modification and change under not departing from spirit of the present utility model.Of the present utility modelly again graphicly be only simple declaration, not describe according to actual size, also namely unreacted goes out be correlated with the actual size of formation, first give chat bright.Following embodiment further describes viewpoint of the present utility model, but not to limit category of the present utility model anyways.

[the first embodiment]

Please refer to Fig. 1, is the cross-sectional schematic of shock-absorbing sound insulating pad structure first embodiment of the present utility model.

The shock-absorbing sound insulating pad structure of the present embodiment, comprises a pad 100, and pad 100 is bendable structure and for composite layered structure.Furthermore, pad 100 is sequentially laminated with sound absorbing layer 1, shock suction layer 2 and a cushion 3 from top to bottom.And the combination of layer and interlayer can with fitting, glue together, the mode such as hot pressing, but not as limit.

Sound absorbing layer 1 is made up of one first foaming body L1.In the present embodiment, the first foaming body L1 is the foaming body of a soft, is alternatively a flexible foamed material, such as, for foaming is continuous, and the noise sent when impacting the top layer of pad 100 for reducing sole.

Shock suction layer 2 comprises a shock-absorbing sublayer 20 and shock-absorbing sublayer 20 is be made up of one second foaming body L2, one the 3rd foaming body L3 and the 4th foaming body L4 from top to bottom successively.Second foaming body L2 and the 3rd foaming body L4 is respectively an ethylene/vinyl acetate copolymer (Ethylene VinylAcetate Copolymer Resin, EVA) foaming body, those skilled in the art are known, as vinylacetate (Vinyl Acetate wherein, VA) EVA can be made when content is 10% ~ 20% to be rigid character, and the hardness range of the second foaming body L2 of the present embodiment and the 4th foaming body L4 is namely between 60 degree to 90 degree (shore hardness A type), the second foaming body L2 and the 4th foaming body L4 is made to be respectively the EVA foaming body of a high rigidity.In addition, 3rd foaming body L3 can be an EVA foaming body, those skilled in the art are known, as vinylacetate (Vinyl Acetate wherein, VA) EVA can be made when content is more than 30% to be elastic property, and therefore the 3rd foaming body L3 of the present embodiment is the EVA foaming body of a high-tension.In addition, the 3rd foaming body L3 can be the memory-type elastic force latex of high temperature foaming.And the 3rd foaming body L3 of the present embodiment is between the second foaming body L2 and the 3rd foaming body L4, and the hardness of the second foaming body L2 and the 4th foaming body L4 is greater than the hardness of the 3rd foaming body L3, the second foaming body L2, the 3rd foaming body L3 and the 3rd foaming body L4 is made to be cascading and to form the shock-absorbing sublayer 20 of a sandwich structure.By above-mentioned second, third, the composition structure of the 4th foaming body L2, L3, L4 enables the second foaming body L2 simulate floor hardness, 3rd foaming body L3 has elasticity and can shock-absorbing, 4th foaming body L4 has impact absorbing ability and can shock-absorbing/sound-absorbing, with the effect of the shock-absorbing damping and sound-absorbing sound insulation that improve pad 100 entirety.

In addition, the second foaming body L2 of the present embodiment is formed with multiple through hole L21, and the 4th foaming body L4 is also formed with multiple through hole L41, can promote gas permeability by these through holes L21, L41.

Cushion 3 be by one the 5th foaming body L5 and multiple be fixed on the 5th foaming body L5 bottom and buffer cell M1 spaced apart formed.In the present embodiment, the 5th foaming body L5 is the EVA foaming body of a high rigidity, and the outline of each buffer cell M1 is convex shape stereochemical structure, its thickness is about 10mm ~ 20mm, and each buffer cell M1 is closed structure, portion is filled with gas in the inner, without the need to extra filling gas.In the present embodiment, each buffer cell M1 is a buffer air bag, and its outline is roughly in spherical, and these buffer cells M1 forms curved stereochemical structure jointly, or perhaps concavo-convex stereochemical structure.These buffer cells M1 can be pressed down during the impact making the 5th foaming body L5 be subject to from top by the composition structure of above-mentioned 5th foaming body L5 and these buffer cells M1, make the temporary transient compression of these buffer cells M1, to cushion disperses impact forces and to reduce impulsive sound, thus enable these buffer cells M1 cushion/noise reduction, significantly to improve buffer capacity and the sound absorbing power of pad 100 entirety.

[the second embodiment]

Please refer to Fig. 2, is the cross-sectional schematic of shock-absorbing sound insulating pad structure second embodiment of the present utility model.

The shock-absorbing sound insulating pad structure of the present embodiment comprises a pad 200, and pad 200 is bendable structure and for composite layered structure.The shock-absorbing sound insulating pad structure of the present embodiment is identical with the shock-absorbing sound insulating pad structure of previous embodiment haply, and the difference of the present embodiment and previous embodiment is mainly: the outline of each buffer cell M2 is convex shape stereochemical structure, further, the trapezoidal column structure of class is.

It should be noted that, the shape of buffer cell outline is not limited to the shape shown in Fig. 1 to Fig. 8, also can be elliptical cylinder, polygonal column, free form surface shape.

[the 3rd embodiment]

Please refer to Fig. 3, is the cross-sectional schematic of shock-absorbing sound insulating pad structure the 3rd embodiment of the present utility model.

The shock-absorbing sound insulating pad structure of the present embodiment comprises a pad 300, and pad 300 is bendable structure and for composite layered structure.The shock-absorbing sound insulating pad structure of the present embodiment is identical with the shock-absorbing sound insulating pad structure of the first embodiment haply, and the difference of the present embodiment and previous embodiment is mainly: these buffer cells M3 is connected with each other logical, and these buffer cells M3 is connected by a communication channel M31.Further, these buffer cells M3 and communication channel M31 also can be communicated with by the inlet channel M32 that pours into of supplied gas A with one, makes the inside of these buffer cells M3 can keep predetermined air pressure by pouring into gas A.

[the 4th embodiment]

Please refer to Fig. 4, is the cross-sectional schematic of shock-absorbing sound insulating pad structure the 4th embodiment of the present utility model.

The shock-absorbing sound insulating pad structure of the present embodiment comprises a pad 400, and pad 400 is bendable structure and for composite layered structure.The shock-absorbing sound insulating pad structure of the present embodiment is identical with the shock-absorbing sound insulating pad structure of the first embodiment haply, and the difference of the present embodiment and the first embodiment is mainly: the 5th foaming body L5 and these buffer cells M4 is the EVA foaming material integrated hot pressing formed of 30mm by thickness.Therefore, these buffer cells M4 is the bottom being shaped in the 5th foaming body L5, makes these buffer cells M4 and the 5th foaming body L5 be integral type structure.

[the 5th embodiment]

Please refer to Fig. 5, is the cross-sectional schematic of shock-absorbing sound insulating pad structure the 5th embodiment of the present utility model.

The shock-absorbing sound insulating pad structure of the present embodiment comprises a pad 500, and pad 500 is bendable structure and for composite layered structure.The shock-absorbing sound insulating pad structure of the present embodiment is identical with the shock-absorbing sound insulating pad structure of the first embodiment haply, and the difference of the present embodiment and the first embodiment is mainly: these buffer cells M5 outline is respectively one hemispherical, its can by thermoplastic polyurethane resin (Thermoplastic Polyurethane, TPU) or rubber hot-forming and be bonding on the bottom of the 5th foaming body L5 with high temperature.Further, these buffer cells M5 inside can pour into gas or load filler.In the present embodiment, these buffer cells M5 inside is respectively charged into a filler M51, such as, for bubble is continuous or silica gel.

[the 6th embodiment]

Please refer to Fig. 6, for analysing and observe of embodiment of shock-absorbing sound insulating pad structure the 6th of the present utility model shows schematic diagram.

The shock-absorbing sound insulating pad structure of the present embodiment comprises a pad 600, and pad 600 is bendable structure and for composite layered structure.The shock-absorbing sound insulating pad structure of the present embodiment is identical with the shock-absorbing sound insulating pad structure of the first embodiment haply, and the difference of the present embodiment and the first embodiment is mainly: shock suction layer 2 also comprises another shock-absorbing sublayer 21, and shock-absorbing sublayer 21 is be made up of the 8th foaming body L8 of the 6th foaming body L6 of a high rigidity, the 7th foaming body L7 of a high-tension and a high rigidity from top to bottom successively.Further, the 7th foaming body L7 of the present embodiment, between the 6th foaming body L6 and the 8th foaming body L8, makes the 6th foaming body L6, the 7th foaming body L7 and the 8th foaming body L8 be cascading and form the shock-absorbing sublayer 21 of another sandwich structure.Moreover shock-absorbing sublayer 20 is stacked at again on shock-absorbing sublayer 21 and makes shock-absorbing sublayer 20 and shock-absorbing sublayer 21 each other in stacking setting.

It should be noted that, the present embodiment only example shock suction layer 2 comprises a shock-absorbing sublayer 20 and another shock-absorbing sublayer 21, and in other alternate embodiment, more shock-absorbing sublayer can be comprised according to the design requirement of reality, and make these shock-absorbing sublayers each other in stacking setting.

[the 7th embodiment]

Please refer to Fig. 7, is the cross-sectional schematic of shock-absorbing sound insulating pad structure the 7th embodiment of the present utility model.

The shock-absorbing sound insulating pad structure of the present embodiment comprises a pad 700, and pad 700 is bendable structure and for composite layered structure.The shock-absorbing sound insulating pad structure of the present embodiment is identical with the shock-absorbing sound insulating pad structure of the first embodiment haply, and the difference of the present embodiment and the first embodiment is mainly: pad 700 also comprises the end sound absorbing layer 4 that is connected to these buffer cells, and end sound absorbing layer 4 can be made up of the 9th foaming body L9 of a soft, and the 9th foaming body L9 is identical with the material of the first foaming body L1, make end sound absorbing layer 4 and sound absorbing layer 1 jointly can form the removable Bag structure that is coated on shock suction layer 2 and cushion 3 further, to make pad 700, there is a globality outward appearance, and the buffering effect that can improve bottom pad 700.And in other alternate embodiment, end sound absorbing layer 4 is positioned at the bottom of cushion 3, and end sound absorbing layer 4 formed with acoutic fibre board cloth or sandwich eyelet fabric.

[the 8th embodiment]

Please refer to Fig. 8, is the cross-sectional schematic of shock-absorbing sound insulating pad structure the 8th embodiment of the present utility model.

The shock-absorbing sound insulating pad structure of the present embodiment comprises a pad 800, and pad 800 is bendable structure and for composite layered structure.The shock-absorbing sound insulating pad structure of the present embodiment is identical with the shock-absorbing sound insulating pad structure of the 7th embodiment haply; and the difference of the present embodiment and the 7th embodiment is mainly: pad 800 also comprises a protective layer 5; and protective layer 5 is positioned at the bottom of end sound absorbing layer 4, and protective layer 5 be with the rubber of on-slip or foaming material form to improve the anti-slip effect of pad 800 entirety.

[the 9th embodiment]

Please refer to Fig. 9 A and 9B, is the schematic diagram of shock-absorbing sound insulating pad structure the 9th embodiment of the present utility model.

The shock-absorbing sound insulating pad structure of the present embodiment comprises a pad 900, and pad 900 is bendable structure and for composite layered structure.And the pad 900 of Fig. 9 A example the utility model shock-absorbing sound insulating pad structure can be whole piece formula structure.And the pad 900 of Fig. 9 B example the utility model shock-absorbing sound insulating pad structure can furl aspect in one in time receiving, to provide storage, to reduce the function taken up room.

[the tenth embodiment]

Please refer to Figure 10 A and 10B, is the schematic diagram of shock-absorbing sound insulating pad structure the tenth embodiment of the present utility model.

The shock-absorbing sound insulating pad structure of the present embodiment comprises multiple pad 1000, and these pads 1000 are respectively bendable structure and are respectively composite layered structure.And these pads 1000 of Figure 10 A example the utility model shock-absorbing sound insulating pad structure are grouped together separably mutually, and can because of in requisition for and group connects more pad 1000 to be expanded into larger shock-absorbing sound insulating pad structure.Specifically, two lateral margins of each pad 1000 are respectively provided with one first group connecting part 1001, it can be such as that two groups connect projection that two other lateral margin is respectively provided with one second group connecting part 1002, first group connecting part 1001, and the second group connecting part 1002 can be such as that two groups connect groove.And these pads 1000 of Figure 10 B example the utility model shock-absorbing sound insulating pad structure can be separated from one another and in a stacking aspect in time receiving, with the function providing storage, minimizing takes up room.

In sum, the shock-absorbing sound insulating pad structure that the utility model embodiment provides, by the stacked setting of sound absorbing layer, shock suction layer and cushion to reach the effect of sound-absorbing, shock-absorbing and buffering.Further, can form by flexible foamed material the noise that sends when reducing sole impact pad surface layer by sound absorbing layer.Again, a shock-absorbing sublayer is comprised and shock-absorbing sublayer can be cascading from top to bottom by three foaming bodies by shock suction layer, and be press from both sides an elastomeric foaming body by the foaming body of two high rigidity and form sandwich structure, there is too soft sensation when enabling shock suction layer simulate floor hardness and sole can not be made to trample, and reach the effect slowing down vibrations and reduce impulsive sound simultaneously.In addition, the repeatedly stacking that also can be comprised shock-absorbing sublayer, another shock-absorbing sublayer or more by shock suction layer impulsive force to be absorbed layer by layer and dispersed, thus reaches the effect more slowing down vibrations and reduce impulsive sound.Moreover, by the foaming body of a high rigidity and multiplely can be fixed on bottom this foaming body and buffer cell spaced apart formed by cushion, these buffer cells can be pressed down make the temporary transient compression of these buffer cells when this foaming body is subject to the impact from top and impulsive force buffering is disperseed, and these buffer cells can be spherical, hemispherical, and common formation curved stereochemical structure, the area with bottom or earth surface can be reduced.Further, also can comprise an end sound absorbing layer by pad, and end sound absorbing layer and sound absorbing layer can be formed as a removable bag jointly, make pad have a globality outward appearance, and can be convenient to replace when stained, also can improve the buffering effect bottom pad.In addition, also can comprise a protective layer by pad, and protective layer formed with the rubber of on-slip or expanded material, the anti-slip effect of pad entirety can be improved.

Only the foregoing is only preferred possible embodiments of the present utility model, it is also not used to limit to the scope of the claims of the present utility model, and all equalizations done according to the utility model claim change and modify, and all should belong to covering scope of the present utility model.

Claims (16)

1. a shock-absorbing sound insulating pad structure, is characterized in that, described shock-absorbing sound insulating pad structure comprises:

One pad, described pad is the structure that can bend, and described pad is sequentially laminated with a sound absorbing layer, a shock suction layer and a cushion from top to bottom; Wherein, described sound absorbing layer is made up of the first foaming body of a soft, and described shock suction layer at least comprises a shock-absorbing sublayer, and described shock-absorbing sublayer is sequentially made up of the 4th foaming body of the second foaming body of a high rigidity, the 3rd foaming body of a high-tension and a high rigidity from top to bottom, and described cushion by a high rigidity the 5th foaming body and multiple be fixed on described 5th foaming body bottom and buffer cell spaced apart formed.

2. shock-absorbing sound insulating pad structure according to claim 1, it is characterized in that, described shock suction layer also comprises another shock-absorbing sublayer, another shock-absorbing sublayer described is sequentially made up of the 8th foaming body of the 6th foaming body of a high rigidity, the 7th foaming body of a high-tension and a high rigidity from top to bottom, and described shock-absorbing sublayer and another shock-absorbing sublayer described are each other in stacking setting.

3. shock-absorbing sound insulating pad structure according to claim 2, it is characterized in that, described pad also comprises an end sound absorbing layer, sound absorbing layer of the described end is made up of the 9th foaming body of a soft, and sound absorbing layer of the described end and described sound absorbing layer form the removable Bag structure that is coated on described shock suction layer and described cushion jointly.

4. shock-absorbing sound insulating pad structure according to claim 2, is characterized in that, described pad also comprises an end sound absorbing layer, and sound absorbing layer of the described end is positioned at the bottom of described cushion, and sound absorbing layer of the described end is formed with acoutic fibre board cloth or sandwich eyelet fabric.

5. shock-absorbing sound insulating pad structure according to claim 3, it is characterized in that, described pad also comprises a protective layer, and described protective layer is positioned at the bottom of sound absorbing layer of the described end, and described protective layer is formed with the rubber of on-slip or expanded material.

6. shock-absorbing sound insulating pad structure according to claim 1, it is characterized in that, the hardness range of described second foaming body and described 4th foaming body is respectively between 60 degree to 90 degree, and the hardness of described second foaming body and described 4th foaming body is greater than the hardness of described 3rd foaming body, and described second foaming body and described 4th foaming body are formed with multiple through hole respectively.

7. shock-absorbing sound insulating pad structure according to claim 1, is characterized in that, described 3rd foaming body is the memory-type elastic force latex of high temperature foaming.

8. shock-absorbing sound insulating pad structure according to claim 1, is characterized in that, the outline of described buffer cell is respectively convex shape stereochemical structure, and described buffer cell forms curved stereochemical structure jointly.

9. shock-absorbing sound insulating pad structure according to claim 8, it is characterized in that, described buffer cell is respectively a buffer air bag.

10. shock-absorbing sound insulating pad structure according to claim 9, it is characterized in that, described buffer cell is communicated with each other by a communication channel.

11. shock-absorbing sound insulating pad structures according to claim 10, is characterized in that, the inlet channel that described buffer cell and described communication channel also pour into an energy supplied gas is communicated with.

12. shock-absorbing sound insulating pad structures according to claim 8, is characterized in that, described buffer cell is shaped in the bottom of described 5th foaming body.

13. shock-absorbing sound insulating pad structures according to claim 8, is characterized in that, described buffer cell is bonding on the bottom of described 5th foaming body.

14. shock-absorbing sound insulating pad structures according to claim 13, it is characterized in that, described buffer cell inside has been respectively charged into a filler.

15. shock-absorbing sound insulating pad structures according to claim 14, it is characterized in that, described filler is foam or silica gel.

16. shock-absorbing sound insulating pad structures according to claim 1, is characterized in that, described shock-absorbing sound insulating pad structure also comprises another pad, and described pad and another pad described can mutual group connect discretely.