CN201030022Y - Inflatable bag and device and system having said inflatable bag - Google Patents

Abstract

Provided is an air sac with a first entirety layer and a second entirety layer. The first entirety layer and the second entirety layer are combined with each other along a closed line, enabling the surface area in the closed line of the first entirety layer to be larger than the surface area in the closed line of the second entirety layer. The first entirety layer and the second entirety layer are restricted to a fluid chamber which is demarcated by the closed line, and wherein when the fluid chamber is deflated, the first entirety layer is positioned on the second entirety layer and is of at least general rippled shape. The air sac further comprises at least a fluid port which is communicated with the fluid chamber.

Description

Air bag and equipment and system with this air bag

Technical field

This utility model relates to field of air bags, more particularly relates to the air bag that is used for massage force is put on health.

Background technology

Massage armchair and massage couch provide the massage of alleviating certain health for its user separately.The example of some situations that massage can be alleviated comprises blood circulation promoting, ease off the pressure and the muscle of relaxation of tension.For effective massage is provided, massage apparatus adopts the applicator that power is put on the user health usually.These applicators are pinched and are rubbed, tip-tap or push health to produce the massage effect.Usually, such applicator is a mechanical roller.But, can carry out above-mentioned motion in order to make mechanical roller, required control and actuating mechanism complexity and number is numerous and strengthened the cost of the massage machine that uses such applicator thus.In addition, such mechanism also is difficult to implementing such as smaller applications occasions such as footwear.

In view of the limitation of mechanical applicator, some massage machines have been devoted to the substitute of air bag as the conventional roll applicator.By doing like this, massage armchair and required control and the actuating mechanism amount of massage couch have been reduced based on air bag.Described air bag in addition, the size of air bag and its corresponding mechanism suitably can be reduced, so that can use in the application scenario such as foot massager etc.

The example of such foot massager is described in U.S. Patent application 2002/0133106 A1, disclosed in the document one have at least three can independent inflatable air bag footwear, wherein air bag distributes along sole.Air bag is formed by two plane layers, and these two plane layers are attached and form fluid cavity thus betwixt along their periphery.When inflation, air bag applies massage force in the foot of user.But the massage force that air bag applied is subject to the elasticity that forms the employed material of this air bag to a certain extent.In addition, the flatness that forms the layer of air bag has also limited the height that air bag can be inflated to, and has limited the projection (and massage force) of air bag in the foot of user thus.

PCT application WO2006/065225 A1 has also disclosed a kind of similar planar air bag, and wherein said air bag is by bonded integral plane layer forms in the periphery.The scope that air bag is applied to the massage force in the user foot (and health) is subjected to being used to form the elastic restriction of the material of described air bag once more.In addition, the flatness that forms the layer of air bag has also limited the height that air bag can be inflated to.Although in one embodiment, this PCT application has been described two air bags and has been piled up with overlapping relation and increase the massage force that puts on foot's (or health), but such being provided with increased the enforcement difficulty, and be especially all the more so under the situation about being restricted in the space that air bag is installed.

The utility model content

Therefore, be necessary to provide a kind of compactness, simple structure and still can fully expand enough massage force are put on the air bag of user health.In addition, such air bag should be made simple and cost-effective.In this regard, can overcome the problems referred to above according to air bag of the present utility model, that be limited in the claims.

Air bag of the present utility model comprises first integral layer and second integral layer, and wherein said first and second integral layers are attached to each other along a closed line.The surf zone of first integral layer in this closed line is greater than the surf zone of second integral layer in this closed line.By mode attached to each other, limit fluid cavity between described first integral layer and second integral layer by described closed line gauge.When fluid cavity was deflated, first integral layer placed on second integral layer and is the shape of big at least bulk wave corrugation.Described air bag also comprises the fluid port that at least one is communicated with fluid cavity.

In an embodiment of described air bag, first integral layer is in closed line, and---being its surf zone in described closed line---can be configured as a plurality of ridges and groove and/or a plurality of waveform.

In another embodiment of the present utility model, ridge and groove and/or waveform can be at least roughly concentric.In other words, the surf zone of first integral layer in closed line can become corrugated and have a plurality of concentric waveforms that a bit extend that originate from the closed line outside closed line.

In all embodiments described herein, be noted that the shape of second integral layer and form usually but be not to be necessary for the general plane shape, and as described, when fluid cavity was deflated, the shape of first integral layer and form were for ripple corrugation roughly and place on second integral layer.The ripple corrugation shape of first integral layer can obtain with the concentric waveform in the situation with above-mentioned embodiment for example by at first manual folding described layer.Then, then first integral layer that will be folded is attached to second integral layer of general plane shape along closed line, as mentioned above.

Selectively, especially under the situation of large-scale production, first and second integral layers can be undertaken molded by molding process, and described molding process is such as interference fit method of molding, injection molding, blow moulding, vacuum forming and thermoforming etc.In general, first and second integral layers can be dividually or are side by side formed in suitable mold and attached to each other along closed line.

No matter air bag is made by manual mode or is made by other modes, and first integral layer and second integral layer are realized by any proper method along the attached of closed line.The example of such proper method includes but not limited to solvent combination, ultraviolet combination, ultrasound wave combination, thermal and/or bonding.Also can adopt these methods that first integral layer is attached to second integral layer along line except that closed line, its details is as hereinafter.

In another embodiment, first and second integral layers can be simple layer.In this embodiment, also can be folded on the remainder of this simple layer and make air bag by hand by first with simple layer.Periphery or other parts with first is attached to remainder along closed line then, makes described first and remainder limit a fluid cavity betwixt with the closed line of gauge.

In this embodiment, be under the situation of simple layer at first and second integral layers, also can realize the formation of air bag as follows: the first molded step forms simple layer; Follow the second molded step thereafter, (for example by thermoforming) makes first produce ripple corrugation shape.Subsequently, the first that can realize formed thereby by arbitrary aforementioned attachment method attached along on described closed line and the remainder.

At first and second integral layers is under the situation of simple layer, desirable work first integral layer of the first of this simple layer, and be folded in desirable work second integral layer of remainder under the described first.Thus, before attached (or folding) first, should suitably be shaped (as mentioned above) to become big at least bulk wave corrugation to described first.As shown in the previous embodiment, first or remainder can comprise fluid port, as long as this fluid port is arranged in the position (on arbitrary part) that makes that described fluid port is communicated with the fluid cavity fluid when being defined as above out fluid cavity, wherein fluid cavity is limited by first and remainder with the closed line gauge.

In an embodiment more of the present utility model, first integral layer can comprise be positioned on its outer surface, at least one node of closed line.This node is a hard part normally, and it is arranged on and drives the position that enters in the user health when fluid cavity is inflated.Node itself can have the terminal or parabola shaped end of tip shape or the end of other suitable shapes arbitrarily, so that it applies health when fluid cavity is inflated or strengthens massage force.

In an embodiment of the present utility model, first and second integral layers are further attached to each other along at least one attached line.This attached line is in closed line inside and thus fluid cavity is subdivided at least two sub-chambeies.An exemplary embodiment kind, attached line can be the other closed line that defines one of them sub-chamber.Because it is a closed line, it is possible not existing fluid to be communicated with between sub-chamber.Thus, the fluid cavity that is limited by the attached line of closure comprises the fluid port that at least one is communicated with its fluid.Hence one can see that exists in the further illustrative embodiments of attached line of many closures therein, and each sub-chamber that is limited by the attached line of described closure includes the fluid port that is communicated with its fluid of himself.

In another illustrative embodiments, first and second integral layers are further attached to each other along at least one attached line, and attached line can not be a closed line.Thus, in this illustrative embodiments, sub-chamber fluid communication with each other.In the further illustrative embodiments that has two or more attached lines, attached line can be set to limit a plurality of (two or more) sub-chamber, each sub-chamber fluid communication with each other.

In all embodiments described herein, first and second integral layers can be for being suitable for molded polymeric material.The example that is suitable for molded polymeric material like this includes but not limited to thermoplastic polyurethane (TPU), polrvinyl chloride (PVC), polypropylene, 420d level nylon cloth, 210 grades of nylon cloths and/or polyethylene (PE).

Should be noted that the fluid that is used to charge into fluid cavity and/or sub-chamber can be suitable fluid arbitrarily, such as liquid or gas.Spendable fluidic example includes but not limited to water or such as nitrogen (N2), air and such as the gas of the noble gas of argon (Ar), helium (He), neon (Ne).

Air bag of the present utility model can have any shape.In this regard, the global shape of the inflatable part of air bag (being fluid cavity) is mainly controlled by the shape of closed line.The example of the shape of closed line can include but not limited to general rectangular, polygon, circle and/or oval in shape at least.

Of the present utility modelly relate to a kind of airbag apparatus on the other hand.This airbag apparatus comprises in the embodiment as described above that the described air bag of embodiment arbitrarily and (may by docking mechanism with removably) can be connected to the fluid pump system of the fluid port of air bag.

The fluid pump system of airbag apparatus comprises fluid pump.This fluid pump for example can be connected to air bag by the intermediate fluid stream pipe.Fluid pump system also can comprise the controller of regulating described fluid pump and be used for the inflation of air bag of control appliance and the valve of venting.Fluid pump system also can comprise the pressure adjustment pick off that links to each other with fluid pump and/or air bag.Fluid pump, controller, valve and pressure adjustment pick off all electricity are coupled to single power supply or independently a plurality of power supply.

As mentioned above, fluid pump system also comprises docking mechanism, so that fluid pump system can be connected to air bag.Described docking mechanism comprises two parts, and a part is positioned on the fluid pump system, and another part is positioned on the air bag.The docking mechanism of fluid pump system roughly with air bag on the docking mechanism complementation that is provided with, that is, and such as plug and slot.

In an embodiment that illustrates, the docking system of fluid pump system comprises housing.This housing comprises at least one fluid flow tubes.One end of fluid flow tubes is communicated with the valve fluid and therefore is communicated with the fluid pump system fluid, and the other end is suitable for being connected to complementary docking mechanism set on the air bag together with housing.Docking mechanism on the air bag also comprises the housing that has at least one fluid flow tubes in it, and wherein an end of this pipe is suitable for being connected to the docking mechanism of fluid pump system, and the other end of this pipe is connected to air bag.

In the embodiment of the above-mentioned docking mechanism that illustrates, the fluid flow tubes of air bag also is coupled to the fluid valve (for example radial dial form) of the rate of flow of fluid that can change the air bag from fluid pump system to butt joint.

Of the present utility modelly relate in one aspect to a kind of massage shoe system again.This massage shoe system comprises a pair of shoes, and at least four air bags are set in every.Each air bag comprises first integral layer and second integral layer, and wherein, described first and second integral layers are attached to each other along closed line.The surf zone of first integral layer in described closed line is greater than being positioned at the surf zone of second integral layer in this closed line, thereby described first integral layer and second integral layer limit the fluid cavity by described closed line gauge.When fluid cavity was deflated, first integral layer placed on second integral layer and is big at least bulk wave corrugation shape.In addition, described air bag comprises at least one fluid port that is communicated with fluid cavity.

Basically, the air bag of above-mentioned any embodiment all can be used for described massage shoe system.When in footwear, implementing the air bag of any embodiment, consider space constraint usually.In this regard, described massage shoe system embodiment comprises having the footwear that at least one is positioned at the recess cup portion on the sole.This recess cup portion is suitable for can ccontaining at least one air bag.In order to make the footwear user have the optimal comfort sense, this depression should be enough dark so that air bag the balloon surface around the opening part of the sole surface of depression and depression should be unanimous on the whole at least when being contained in wherein.

In an illustrative embodiments of the footwear with depression, described depression can be arranged in heel area.Selectively, in another illustrative embodiments, depression can be arranged in the middle part sole region of footwear.

Have in every footwear therein in the specific exemplary embodiments of massage shoe system of four air bags, in four air bags two are arranged on the sole or in the sole, to provide massage force to heel area and/or plantar foot area, and all the other two air bags are along the sidewall setting of footwear, to provide massage force to instep zone/sole arcuate region and/or territory, foot lateral areas.The setting of air bag is not limited to above-mentioned those zones, also can comprise other zones of foot, such as calcaneal tuberosity zone, calcaneus sidepiece, shank zone, dorsal area and toes zone etc.

In an illustrative embodiments again, massage shoe system comprises boots but not footwear.Boots can be high tube boots or low tube boots, and promptly described boots can extend to ankle or further up to lower leg area from foot.In this illustrative embodiments, air bag can be set to contralateral leg zone, shank zone and calf zone and provide massage machine in boots.

In an embodiment again of massage shoe system, each all is arranged on four air bags under the elastomeric layer.Do like this is that comfortableness at user provides more bonding surfaces on sole.In this embodiment, because the foot of user direct contact resilient material only, because the inflation of air bag stands massage force, wherein, described elastomeric material stretching, extension is to hold expansible air bag via described elastomeric material for foot.

Although can use any suitable elastic material, in a specific example embodiment, employed elastomeric material is a neoprene.Use neoprene to prevent heat gathering in footwear in any massage process, reduced perspiration and niff thus.Except that neoprene rubber, also can use Nylex (Nylex) or other suitable elastomeric materials that are used for identical purpose arbitrarily.

In the further embodiment of massage shoe system, heel area and/or sole region can comprise docking mechanism.This docking mechanism is suitable for usually with independently power supply and/or aforesaid airbag apparatus dock.

Description of drawings

Illustrated this utility model illustrative embodiments is described various aspects of the present utility model below the following reference, wherein:

Figure 1A shows the embodiment according to air bag of the present utility model that is in deflated state;

Figure 1B shows along the viewgraph of cross-section of the Y-Y line of the embodiment of Figure 1A;

Fig. 2 A shows the embodiment of the Figure 1A that is in inflated condition;

Fig. 2 B shows along the viewgraph of cross-section of the Y-Y line of the embodiment of Fig. 2 A;

Fig. 3 A shows another embodiment according to air bag of the present utility model that is in deflated state;

Fig. 3 B shows along the viewgraph of cross-section of the X-X line of the embodiment of Fig. 3 A;

Fig. 4 A shows the embodiment of Fig. 3 A that is in inflated condition;

Fig. 4 B shows along the viewgraph of cross-section of the X-X line of the embodiment of Fig. 4 A;

Fig. 5 shows the decomposition view of the docking mechanism of a part that forms the footwear massage system;

Fig. 6 shows the decomposition view of the sole of footwear massage system;

Fig. 7 shows the decomposition view of another embodiment of sole of the footwear massage system of Fig. 6; And

Fig. 8 shows the decomposition view of the sole of footwear massage system.

The specific embodiment

Figure 1A shows the embodiment according to air bag 10 of the present utility model that is in deflated state.Described air bag comprises first integral layer 12 and second integral layer 14.First and second integral layers 12 and 14 attached to each other along closed line 15, these closed line all directions are substantially elliptical and lay.First and second integral layers 12 and 14 limit fluid cavity (not shown) with closed line 15.Air bag 10 comprises the fluid port 16 that is communicated with the fluid cavity fluid.

In closed line 15, first integral layer 12 be shaped as big at least bulk wave corrugation, and second integral layer in closed line 15 (although not shown) is the substantitally planar shape.The ripple of first integral layer 12 wrinkle is made of ridge and groove or waveform.As illustration, described ripple wrinkle is for concentric, and the eminence from the middle section of closed line 15 is extended to closed line 15.Like this, the total bulk wave corrugation surf zone of first integral layer 12 in closed line 15 is greater than the surf zone of second integral layer 12 in closed line 15.

Figure 1B shows along the viewgraph of cross-section of the Y-Y line of the embodiment of Figure 1A.Among Figure 1B, first integral layer 12 and second integral layer 14 are attached to each other along closed line 15.In closed line 15, first and second integral layers have eclipsed surface, and wherein, the surf zone of first integral layer 12 is greater than the surf zone of second integral layer 14.The surf zone of the first bigger integral layer 12 is the ripple corrugation by the described surface that makes first integral layer 12 and remains in the blockade line 15, that is, it is shaped by a plurality of ridges and groove (or waveform) 13.First integral layer 12 of this ripple corrugation and this second integral layer 14 limit with closed line 15 and have formed above-mentioned fluid cavity 11.When fluid cavity 11 was in its deflated state, first integral layer 12 placed on second integral layer 14, as shown in the figure.

Fig. 2 A shows the embodiment of the Figure 1A that is in inflated condition.At inflated condition, along with fluid (air) charges into fluid cavity 11 and forces the ripple corrugation superficial expansion of first integral layer 12 to become the cardinal principle parabolic shape with eminence thus, first integral layer 12 no longer presents the ripple corrugation.The inflated condition of air bag is clearer explanation in Fig. 2 B, and Fig. 2 B shows along the viewgraph of cross-section of the Y-Y line of the embodiment of Fig. 2 A.In this embodiment, although first integral layer 12 becomes parabolic shape substantially, second integral layer 14 is plane substantially, produces the structure of dome-shaped substantially thus.

Selectively, second integral layer 14 can be adapted such that it presents parabolic shape when air bag is inflated, and produces thus from its transverse cross-sectional area along the Y-Y line and sees round structure (not shown).In addition, although in the embodiment that illustrates, shown in first integral layer 12 do not extend to outside the closed line 15, it is to be noted that integral layer 12 outside the closed line 15 and 14 zone can change.But keep the surf zone of first integral layer 12 always to surpass the surf zone of second integral layer 14 at integral layer 12 and 14 relations in closed line 15, and the amount that should surpass become the mode of ripple corrugation to remain in the closed line 15 when exitting by first integral layer 12.

Fig. 3 A shows another embodiment according to air bag 20 of the present utility model that is in deflated state.Except the air bag of Fig. 3 A be arranged on depression or cup portion 18 (shown in Fig. 3 B) interior, the embodiment of Fig. 3 A is similar to the embodiment of Figure 1A.Therefore, as Fig. 1, first integral layer 12 and second integral layer 14 are attached to each other along closed line 15, and these closed line all directions are substantially elliptical and lay.First and second integral layers 12 and 14 limit fluid cavity 11 (shown in Fig. 3 B) with closed line 15, and described fluid cavity is communicated with fluid port 16 fluids.

Because the illustrated air bag 20 of Fig. 3 A is arranged in the depression 18, second integral layer 14 often adopts the shape of depression 18.Selectively, second integral layer 14 can form concave shape in advance, so that the assembly of air bag 20 is in the depression 18.In any case as the embodiment of Figure 1A, the surf zone of first integral layer 12 surpasses the surf zone of second integral layer 14 in closed line 15.Therefore, the surf zone of the first bigger integral layer 12 remains in the blockade line 15 by making described surf zone be configured as a plurality of waveforms 13, and shown in Fig. 3 B, it is the viewgraph of cross-section along the X-X line of the embodiment of Fig. 3 A.Waveform 13 places when air bag 20 is in deflated state on second integral layer 14, and outwards expansion or expansion when air pump is gone into fluid cavity 11.

Fig. 4 A shows the embodiment of Fig. 3 A that is in inflated condition.As shown in Fig. 2 A and Fig. 2 B, along with fluid (air) charges into fluid cavity 11 and forces the waveform of first integral layer 12 to expand into the cardinal principle parabolic shape with eminence thus, first integral layer 12 no longer keeps its waveform.The inflated condition of air bag is shown among Fig. 4 B better, and Fig. 4 B shows along the viewgraph of cross-section of the X-X line of the embodiment of Fig. 4 A.In this embodiment, although first integral layer 12 becomes parabolic shape substantially, second integral layer 14 is plane substantially, produces the structure of dome-shaped substantially thus.

Different with the embodiment of Fig. 2 B, because air bag 20, specifically, second integral layer 14, be arranged in the depression 18, air bag 20 is by the size and dimension restriction of rigidity depression 18 and form wherein second integral layer 14 thus and be roughly the parabolic dome-shaped with eminence for substantitally planar shape first integral layer 12 at least.

Fig. 5 shows the decomposition view of a part that forms massage shoe system.This massage shoe system partly shows the docking mechanism 712 of footwear (not shown).Footwear generally include at least one air bag that is positioned at described footwear.This has depression footwear in sole 718, it holds docking mechanism 712.Docking mechanism 712 is fixed on appropriate location in the depression by covering 720.As shown in the figure, docking mechanism is arranged in the heel area of sole 718, and still, it also can further be positioned at forward such as the middle part sole region.

The docking mechanism complementation of docking mechanism 712 and power supply or fluid pump system.When not in use, can cover joint to prevent the fluid passage of dirt obstruction docking mechanism 712 with lid 714.Docking mechanism 712 is connected to air bag in the footwear by fluid flow tubes 716.

Fig. 6 shows the decomposition view of the sole 718 of footwear massage system.Sole 718 hollow substantially generally is contained in heel area and middle part sole region to hold docking mechanism 712 and fluid flow tubes 716, and is as discussed above.Fluid flow tubes 716 is connected to valve body 101, and valve body 101 combines with actuating mechanism 111 and forms valve system.Lid 1002 in the sole covers the sole 718 of hollow.Lid 1002 in the sole comprises at least one air bag 1004.Air bag 1004 can be located immediately on the side surface of the lid 1002 in the sole or be positioned under another material layer such as neoprene etc.

Fig. 7 shows the decomposition view of another embodiment of sole of the footwear massage system of Fig. 6.Except the inside of air bag 1004 in described air bag 1004 place soles was provided with depression 1008, the embodiment of this embodiment and Fig. 6 was very similar.Depression 1008 is positioned at the middle part on the lid 1002 of sole.

Fig. 8 shows the decomposition view of the footwear 110 of footwear massage system.Footwear 110 have sole 102.As mentioned above, this sole comprises at least one air bag 104 in the hollow space that is arranged on sole.Air bag 104 is covered by the material layer 106 such as neoprene or Nylex etc., but also can use other suitable materials arbitrarily.Cover layer 106 provides the comparatively surface of homogeneous for the sole in the footwear 110.In addition, under the situation of neoprene, the described layer 106 interior heat history of footwear that helps to dissipate, thus reduce the probability that foot is perspired or sent bad smell.

Footwear 110 also comprise at least two more air bags 108 and 112.Air bag 108 and the 112 sidewall settings along footwear make the side surface of foot of user contact air bag 108 and 112 respectively with the sole arcuate region.

Should be noted that above-mentioned illustrative embodiments only is used for the auxiliary various aspects of the present utility model of understanding.Therefore, described various aspects of the present utility model are not confined to and are subject to described illustrative embodiments, but are defined by the following claims.

Claims (30)

1. air bag that is used for massage force is put on health is characterized in that described air bag comprises:

First integral layer;

Second integral layer,

Described first and second integral layers are attached to each other along a closed line, make the surf zone of integral layer in this closed line of winning greater than the surf zone of second integral layer in this closed line, described first integral layer and second integral layer limit the fluid cavity by described closed line gauge, wherein, when described fluid cavity was deflated, described first integral layer placed on described second integral layer and is big at least bulk wave corrugation shape; And

The fluid port that at least one is communicated with described fluid cavity.

2. air bag as claimed in claim 1 is characterized in that, in described closed line, described first integral layer comprises a plurality of ridges and groove and/or a plurality of waveform.

3. air bag as claimed in claim 2 is characterized in that, described ridge and groove and/or waveform are at least roughly concentric.

4. air bag as claimed in claim 1 is characterized in that, described first and second integral layers are simple layer.

5. air bag as claimed in claim 1 is characterized in that, described first integral layer comprise be positioned on its outer surface, at least one node of described closed line, described node is suitable for when described fluid cavity is inflated massage force being applied to health.

6. air bag as claimed in claim 1 is characterized in that, it is attached to each other that described first and second integral layers further are positioned at the attached line of described closed line along at least one, thus described fluid cavity is subdivided at least two sub-chambeies.

7. air bag as claimed in claim 6 is characterized in that, described attached line is another closed line, and it defines one of them sub-chamber and has the fluid port that at least one is communicated with its fluid.

8. air bag as claimed in claim 6 is characterized in that, described attached line is defined as and makes described sub-chamber fluid communication with each other.

9. air bag as claimed in claim 1 is characterized in that, described first and second integral layers are formed by the polymeric material that is suitable for molded or vacuum forming.

10. air bag as claimed in claim 9 is characterized in that, described polymeric material is thermoplastic polyurethane, polrvinyl chloride, polypropylene, nylon and/or polyethylene.

11. air bag as claimed in claim 1 is characterized in that, the fluid that charges into described fluid cavity and/or sub-chamber is a gas.

12. air bag as claimed in claim 11 is characterized in that, described gas is nitrogen, air or noble gas.

13. air bag as claimed in claim 1 is characterized in that, described closed line is general rectangular, polygon, circle and/or oval at least.

14. an airbag apparatus is characterized in that described airbag apparatus comprises:

Air bag as claimed in claim 1; And

Be connected to the fluid pump system of the fluid port of described air bag.

15. airbag apparatus as claimed in claim 14 is characterized in that, described fluid pump system comprises:

Fluid pump, it is suitable for being connected to the fluid port of air bag;

Valve, it is connected to described fluid pump to control described fluidic directed flow;

Controller, wherein said controller is suitable for regulating described fluid pump and valve, thereby controls the inflation and the venting of described air bag;

Pressure is adjusted pick off, and it links to each other with described fluid pump and/or air bag; And

Electricity is coupled to the power supply that described fluid pump, valve, controller and/or pressure are adjusted pick off.

16. as claim 14 or 15 described airbag apparatus, it is characterized in that, described air bag and fluid pump system respectively comprise docking mechanism complimentary to one another, make that when described air bag docked with described fluid pump system, described air bag was communicated with described fluid pump system fluid by described fluid port.

17. a massage shoe system is characterized in that described massage shoe system comprises:

A pair of shoes or boots have at least four air bags in every footwear, wherein each air bag comprises:

First integral layer;

Second integral layer,

Described first and second integral layers are attached to each other along a closed line, make the surf zone of integral layer in described closed line of winning greater than the surf zone of second integral layer in this closed line, described first integral layer and second integral layer limit the fluid cavity by described closed line gauge, wherein, when described fluid cavity was deflated, described first integral layer placed on described second integral layer and is big at least bulk wave corrugation shape; And

The fluid port that at least one is communicated with fluid cavity; And

The fluid pump system that is connected with described footwear by docking mechanism.

18. air bag as claimed in claim 17 is characterized in that, in described closed line, described first integral layer comprises a plurality of ridges and groove and/or a plurality of waveform.

19. massage shoe system as claimed in claim 18 is characterized in that, described ridge and groove and/or waveform are at least roughly concentric.

20. as claim 17 or 18 described massage shoe system, it is characterized in that, described first integral layer comprise be positioned on its outer surface, at least one node of described closed line, described node is suitable for when described fluid cavity is inflated massage force being applied to health.

21. massage shoe system as claimed in claim 17 is characterized in that, it is attached to each other that described first and second integral layers further are positioned at the attached line of described closed line along at least one, thus described fluid cavity is subdivided at least two sub-chambeies.

22. massage shoe system as claimed in claim 21 is characterized in that, described attached line is other closed line, and it defines one of them sub-chamber and has the fluid port that at least one is communicated with its fluid.

23. massage shoe system as claimed in claim 21 is characterized in that, described attached line is defined as and makes described sub-chamber fluid communication with each other.

24. massage shoe system as claimed in claim 17 is characterized in that further comprising that at least one is positioned at the cup portion of the depression on the sole, the cup portion of described depression can ccontaining at least one air bag.

25. massage shoe system as claimed in claim 24 is characterized in that, the cup portion of described depression is arranged in heel area and/or middle part sole region.

26. massage shoe system as claimed in claim 17, it is characterized in that, two air bags are set in every footwear provide massage force to heel area and/or plantar foot area, all the other two air bags are set to provide massage force to instep zone, sole arcuate region, territory, foot lateral areas, calcaneal tuberosity zone, calcaneus sidepiece, shank zone, instep region and toes zone in every footwear.

27. massage shoe system as claimed in claim 17 is characterized in that, each in four air bags all is arranged under the elastomeric layer.

28. massage shoe system as claimed in claim 27 is characterized in that, described elastomeric layer is neoprene or Nylex.

29. massage shoe system as claimed in claim 17 is characterized in that, described heel area and/or sole region comprise and are suitable for the docking mechanism that docks with independently power supply and/or fluid pump.

30. massage shoe system as claimed in claim 17, it is characterized in that, described docking mechanism is two parts, a part is positioned on the described fluid pump system, another part is positioned on the footwear, each several part is complimentary to one another, makes that each air bag all is communicated with described fluid pump system fluid by described fluid port when footwear dock with fluid pump system.

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