CN101053454A - Shoe with cushion and ventilation device - Google Patents

Abstract

The invention relates to a shoe which is provided with a pad and a venting device at the interior and can not only improve the reducing force of an air pump used for inhaling air and prevent the blockage of an air pathway during the heat bonding process, but also can prolong the retention time of the air which is stored in an air bag to the maximum extent and improve the elasticity of the pad. Aiming at the shoe which is provided with the pad and the venting device at the interior and composed of the air pump with an air exhaust pipe at one side and an air pipeline with a connecting pipeline which is connected with the air exhaust pipe of the air pump and the air bag, the shoe which is provided with the pad and the venting device is characterized in that: an upper washer with a hollow part is arranged on a lower washer with a suction hole by the air pump, the peripheries of the upper washer and the lower washer are composed by heat bonding by utilizing high frequency, and the interiors of the upper washer and the lower washer are further provided with built-in sponges with contracting force and reducing force.

Description

In be provided with the shoes of liner and gas permeable devices

Technical field

The present invention relates to shoes, particularly relate to the shoes that are provided with liner and gas permeable devices in a kind of, not only can improve the reducing power of the air pump that is used to suck air, prevent that air flue from stopping up in the heat bonding process, and can prolong the air remaining time that is stored in the air bag to greatest extent, improve liner elastic force.

Background technology

As everyone knows; shoes are instruments of protection pedestrian both feet, making such as ventilative bad leather of general use or synthetic resin, thereby the circulation of shoes inner air is not smooth; easily because of sweat or moisture etc. causes that pin is smelly, or bring out diseases such as the ringworm of the foot or eczema because of bacteria breed.

For solving as above problem, the shoes that are provided with gas permeable devices in multiple have been designed recently.The general structure of these ventilative shoes is made of following several sections: air pump, it be installed on shoes greatly under, be used to suck air; Check-valves, it is used to make from above-mentioned air pump inhaled air folk prescription to passing through; The air discharge pipe, it is connected with above-mentioned check-valves, makes the air by above-mentioned check-valves be discharged to shoes inside.

The ventilative in the past shoes that are made of as above structure in design, be conceived in gait processes, make above-mentioned air pump compress repeatedly, reduce, realize pump suction action, make extraneous air constantly be fed to shoes inside, can effectively remove sweat and stink in the shoes, shoes will there are the following problems but breathed freely in the past.

At first, the ventilative in the past employed air pump effect of shoes is in gait processes, shrinks under the pressure of pin, behind the suction air, reduces when pressure relief, discharges inhaled air by discharge pipe.At this moment, air pump shrinks and homing action in order to bring into play, and utilizes the material with elastic force, is made into the shape of inner hollow.But the air pump of this shape shrinks and homing action because of long-time, causes elastic force to descend, and homing action can't normally be realized, exists pump to inhale the problem that action can not be finished smoothly.

In addition, ventilative in the past shoes only have the airing function that air is circulated in shoes, do not possess the means that in gait processes, to alleviate the impact of pin, therefore, have the pedestrian because the impact of constantly pin being implemented in gait processes and feel tired problem easily.

Summary of the invention

For addressing the above problem, the invention provides the shoes that are provided with liner and gas permeable devices in a kind of, sponge is set in air pump, can improve the reducing power of air pump.

In addition, the present invention also provides the shoes that are provided with liner and gas permeable devices in a kind of, and elastic component is installed around sponge, improves the sponge reducing power, and strengthens the distortion of sponge in contraction process.

In addition, the present invention also provides the shoes that are provided with liner and gas permeable devices in a kind of, utilizes disposable high frequency heat Method for bonding, makes the liner and the gas permeable devices that are made of air pump and air discharge pipe and air duct.

In addition, the present invention also provides the shoes that are provided with liner and gas permeable devices in a kind of, in the high frequency heat adhesion process, prevents the blocked path of air discharge pipe.

In addition, the present invention also provides the shoes that are provided with liner and gas permeable devices in a kind of, and the air that postpones to reside in air duct to greatest extent is discharged to shoes inside, improves the liner cushion effect.

In addition, the present invention also provides the shoes that are provided with liner and gas permeable devices in a kind of, can be the air centralizedly supply of discharging to the perspiration position.

Description of drawings

Fig. 1 shows the sectional view of the shoes formation that is provided with liner and gas permeable devices in the useful embodiment of the present invention.

Fig. 2 is the plane that shows liner shown in Figure 1 and gas permeable devices.

Fig. 3 is the exploded perspective view that shows liner shown in Figure 2 and gas permeable devices.

Fig. 4 is the partial plan layout of the air bag that has of liner and gas permeable devices.

Fig. 5 shows air bag and the drain passageway that auxiliary balloon had and the accompanying drawing of difference path in detail.

Fig. 6 a and Fig. 6 b are the accompanying drawings that shows the air pump operating state successively.

Fig. 7 a and Fig. 7 b are the accompanying drawings that shows the airtight and releasing air-tight state between non-conductor and connecting path respectively.

Fig. 8 shows the liner of another embodiment of the present invention and the plane of gas permeable devices.

The symbol description of＜accompanying drawing major part 〉

20: liner and gas permeable devices 22; Air pump

24: upper gasket 26: lower gasket

30: air discharge pipe 32: sponge

36: elastic component 38: air duct

44: connecting line 44a: inlet

46: non-conductor 48: air bag

50: the 50a of heat bonding portion: drain passageway

52: central auxiliary balloon 54: side auxiliary balloon

The specific embodiment

For achieving the above object, at the air pump that has the air discharge pipe by a side, have that the air duct of the connecting line that is connected in above-mentioned air pump air discharge pipe and air bag constitutes in be provided with the shoes of liner and gas permeable devices, the feature that is provided with the shoes of liner and gas permeable devices in provided by the invention is: air pump is that the upper gasket that has hollow bulb is placed on the lower gasket that has inlet hole, utilize high frequency make above-mentioned upper and lower part pad around heat bonding constitute, above-mentioned upper and lower part pad is inner also built-in has the sponge of contraction and reducing power.

And in the inside of above-mentioned upper and lower part pad, preferably also built-in one places above the above-mentioned sponge, along prolonging the elastic component that forms elastic bumps portion all around.

Another feature of the present invention is that the connecting line inlet that forms on above-mentioned air duct inserts to be different from the non-conductor that the air duct material is made.

In addition, in the front side of air bag, have the auxiliary balloon that is used to make air be discharged to the outlet of shoes inside and be separated to form heat bonding portion, above-mentioned auxiliary balloon is communicated with the drain passageway of the central formation of above-mentioned heat bonding portion.

Above-mentioned drain passageway is preferably formed as more and more narrowly to exporting from inlet.

Above-mentioned auxiliary balloon preferably is made of following several sections: central auxiliary balloon, and it is communicated with above-mentioned drain passageway; The side auxiliary balloon, it is positioned at above-mentioned central auxiliary balloon both sides, is being separated under the state of auxiliary heat bonding part with above-mentioned central auxiliary balloon, is communicated with central auxiliary balloon by the difference path that forms on the above-mentioned auxiliary heat bonding part.

Above-mentioned difference path is preferably formed as more and more narrowly to exporting from inlet.

In above-mentioned central auxiliary balloon and side auxiliary balloon, best bonding formation SPOT heat bonding portion.

On the other hand, the walking action (heel land earlier after, the action that sole then lands) that the ventilative shoes with padding function involved in the present invention, its padding function utilize the people realizes ventilative and padding function repeatedly.Its feature comprises following several aspect: the first, and air pump is installed at the heel place that lands earlier when walking, improves air pump at the reducing power that once sucks in the air event; The second, prolong the air remaining time that resides in the air bag to greatest extent, the liner cushion effect is provided, absorb the impact of sole; The 3rd, by realizing air permeable effect from the each a small amount of air of discharging of air bag.

With reference to the accompanying drawings, describe useful embodiment of the present invention in detail.

Fig. 1 has shown the whole accompanying drawing that constitutes of ventilative shoes.As shown in the figure, ventilative shoes were made of the vamp that forms profile (10), the interior end (12) that forms above-mentioned vamp (10) bottom surface, the middle end (14), the big end (16).

On the other hand, in the bottom surface of above-mentioned ventilative shoes, preferably under the interior end (12), liner and gas permeable devices (20) as main composition of the present invention are installed.Below, being defined in the situation that a liner of the present invention and gas permeable devices (20) be installed at the interior end (12) describes, but in addition, also can utilize inserts injection moulding mode, above-mentioned gas permeable devices (20) is inserted in (14) inside, the middle end makes, or install with the state that is inserted at the middle end (14) and the big end (16).This is that to have a corresponding field Chang Shizhe self-evident.

Fig. 2 is the plane of above-mentioned liner and gas permeable devices (20).The structure of liner and gas permeable devices (20) is, the rear is air pump (22), and in the air discharge pipe (30) that above-mentioned air pump (22) is had, air duct (38) is connected to connecting line (44).Above-mentioned air pump (22) is discharged to air discharge pipe (30) by shrinking and homing action suction extraneous air; The air that is discharged to above-mentioned air discharge pipe (30) resides in air duct (38) and goes up in the air bag (48) that forms by connecting line (44).

Fig. 3 decomposes the accompanying drawing that shows that above-mentioned liner and gas permeable devices constitute.

As shown in the figure, air pump (22) is made of upper gasket (24) and lower gasket (26).

Above-mentioned upper gasket (24) is made with polyurethane (PU) [polyurethane] material, and its central authorities form a certain size hollow bulb (24a).

Above-mentioned lower gasket (26), is utilized high frequency heat to melt it and is carried out bonding all around under the state that places above-mentioned upper gasket (24) to make with the polyurethane material of the identical rerum natura of above-mentioned upper gasket (24).

Central authorities are formed with inlet hole (26a) in above-mentioned lower gasket (26).When above-mentioned inlet hole (26a) shrinks at the air pump (22) that is made of upper and lower part pad (24,26), make extraneous air suck the interior hollow bulb (24a) of upper gasket (24).

In addition, in the inside of the lower gasket that is formed with above-mentioned inlet hole (26a) (26) elastic membrane (28) is installed.Above-mentioned elastic membrane (28) is in elastic bending under the effect of above-mentioned inlet hole (26a) inhaled air pressure, the function of inlet hole (26a) is opened in performance, and, after air sucks hollow bulb (24a), under the pressure that sucks air, again closed inlet hole (26a) prevents that air is discharged to the outside.

As mentioned above, in a side of the air pump (22) that is made of upper and lower part pad (24,26), a body extension is formed with air discharge pipe (30).Above-mentioned air discharge pipe (30) is to be used to make the pipe that flows into the connecting line (44) of air duct (38) from air pump (22) inhaled air, and above-mentioned air discharge pipe (30) inside is built-in with valve (31).

On the other hand, be built-in with sponge (32) in above-mentioned air pump (22) inside.Above-mentioned sponge (32) is to upper and lower part pad (24,26) carry out before the heat bonding, be inserted in above-mentioned upper gasket (24) hollow bulb (24a), above-mentioned sponge (32) utilizes self liner cushion effect, improve the particularly reducing power of upper gasket (24) of air pump (22), so that can not cause air pump (22) reducing power to descend, therefore can prevent to cause the decline of air pump (22) pump suction because of long-time the use because of the contraction repeatedly of air pump (22) and homing action (that is, pump is inhaled action).

In addition, on above-mentioned sponge (32), also have other elastic component (36).Above-mentioned elastic component (36) is made by rubber-like materials such as rubber, and this elastic component (36) is made of following several sections: planar portions (36a), it be enclosed within sponge (32) above; Elastic bumps portion (36b), it protrudes formation all around along above-mentioned planar portions (36a), surround above-mentioned sponge (32) around.Above-mentioned elastic component (36) improves sponge (32) reducing power in the elastic force mode, in addition, when sponge (32) was not reduced to collapsed state in contraction process, the elastic bumps portion (36b) that above-mentioned elastic component (36) is had carried out elastic reinforcement to it, made sponge (32) reduction.

On the other hand, air duct (38) is at the upper and lower part pad (40 that makes polyurethane (PU) [polyurethane] material, 42) under the mutual face state of contact, utilize high frequency heat bonding around it, at upper and lower part pad (40,42) form connecting line (44) between, go up expansion at above-mentioned connecting line (44) and form air bag (48).

Insert the non-conductor of making by polyethylene (pe) [polyethylene] or polypropylene (pp) [polypropylene] material (46) at above-mentioned connecting line (44) inlet.Upper and lower part pad (40,42) is being carried out in the heat bonding process all around, and above-mentioned non-conductor (46) stops connecting line (44) inlet (44a) airtight.

Promptly, because above-mentioned non-conductor (46) is to have the upper and lower part of being different from pad (40,42) material of rerum natura (polypropylene) is made, under the state of non-conductor (46) insertion with the inlet (44a) of shaping connecting line (44), to upper and lower part pad (40,42) after integral body is carried out heat bonding all around, locate at the above-mentioned non-conductor of insertion (46), upper and lower part pad (40,42) do not contact mutually, so heat bonding do not occur, therefore can be made into the state that connecting line (44) inlet (44a) is opened.

In addition, above-mentioned non-conductor (46) has concurrently and only makes the function of air folk prescription to the check-valves that passes through.Shown in Fig. 7 a and Fig. 7 b, air is inhaled after action is supplied to air discharge pipe (30) because of air pump (22) pump, under the effect of air supplied pressure, slit (K) appears between non-conductor (46) and connecting line (44), air can pass through this slit (K), through connecting line (44), reside in air bag (48).In addition, after the air supply was finished, non-conductor (46) was airtight mutually with the inlet (44a) of connecting line (44), can cut off and retain air inversion in the air bag (48), and the action of this moment will describe in detail in following action specification.

Fig. 4 is the accompanying drawing that further shows the air bag that air duct had in detail.

As shown in the figure, air bag (48) is to be used to make by flowing into pipeline (44) air supplied retain certain hour, provides the liner cushion effect to pedestrian's pin, relaxes the means of impacting whereby.

That is, along with the pump of air pump (22) is inhaled action, air flows into above-mentioned air bag (48) through flowing into pipeline (44), and air bag (48) expands and becomes big, and afterwards, after sole contacted above-mentioned air bag (48), air bag (48) was pushed by elasticity, absorbed the impact of sole.

Above-mentioned air bag (48) front side forms heat bonding portion (50), is separated to form auxiliary balloon in addition.At this moment, form drain passageway (50a), make the air of retaining in the air bag (48) can pass through auxiliary balloon in central authorities of above-mentioned heat bonding portion (50).

Above-mentioned auxiliary balloon is separated into 3 spaces, particularly, is divided into the central auxiliary balloon (52) that is communicated with above-mentioned drain passageway (50a); Be separated into the side auxiliary balloon (54) of aid adhesion portion (56) in above-mentioned central auxiliary balloon (52) both sides.At this moment, be formed with difference path (56a) respectively in above-mentioned aid adhesion portion (56), the air that above-mentioned difference path (56a) is retained central auxiliary balloon (52) passes through side auxiliary balloon (54).

Be formed with outlet (58) in above-mentioned side auxiliary balloon (54) perforation.Above-mentioned outlet (58) makes and is supplied to the air of central auxiliary balloon (52) and side auxiliary balloon (54) to be discharged to shoes inside, preferably is discharged between user's the toe, to realize air permeable effect.

Promptly, as mentioned above, air bag (48) is carried out heat bonding (50), form other auxiliary balloon (48a), and, be interconnected by drain passageway (50a) and difference path (56a), why constitute like this, be in order to prolong the time that the air of retaining in the air bag (48) is discharged to shoes inside to greatest extent, to keep the liner cushion effect of air bag (48) for more time.

Fig. 5 further shows in detail to air bag and the path of auxiliary balloon supply air and the accompanying drawing of difference access structure.

As shown in the figure, the drain passageway (50a) that air bag (48) is communicated with central auxiliary balloon (52) is made more and more narrowly to outlet (50c) diameter from inlet (50b).This is in order to reduce from the velocity of discharge of air bag (48) to the air of central auxiliary balloon (52) discharge, to make air bag (48) have the liner cushion effect.

In addition, being communicated with central auxiliary balloon (52) also makes more and more narrowly to outlet (56c) diameter from inlet (56b) with the difference path (56a) of side auxiliary balloon (54), this also is the velocity of discharge that is discharged to the air of side auxiliary balloon (54) from central auxiliary balloon (52) in order to reduce, because speed reduces, remain remaining pressure, form air bag, form cushion part.

In addition, in above-mentioned central auxiliary balloon (52) bonding formation SPOT heat bonding portion (60).Above-mentioned SPOT heat bonding portion (60) stably regulates by the means of drain passageway (50a) to the velocity of discharge of the air of central auxiliary balloon discharge.That is, the air by a drain passageway is divided into two-way through above-mentioned SPOT heat bonding portion, resides in central auxiliary balloon, can stably regulate the velocity of discharge of air.Wherein, keep the air velocity of discharge stable, also just mean and reduce the air velocity of discharge to greatest extent.

On the other hand, above-mentioned SPOT heat bonding portion (60) can regulate the velocity of discharge of air once more according to bond locations.Particularly, SPOT heat bonding portion forms with the state that approaches drain passageway (50a) outlet (50c) side, and when the outlet (50c) of drain passageway (50a) narrowed down, discharge pressure rose, and therefore can keep the air velocity of discharge stable; On the contrary, if far form SPOT heat bonding portion (60) apart from drain passageway (50a) outlet (50c) side, drain passageway (50a) outlet (50c) can broaden, and this will accelerate the air velocity of discharge.

On the other hand, in above-mentioned side auxiliary balloon (54) also bonding formation SPOT heat bonding portion (62).Above-mentioned SPOT heat bonding portion (62) is used for stably regulating the means of the velocity of discharge that are discharged to the air of side auxiliary balloon (54) by difference path (56a) from central auxiliary balloon (52).That is, the air by difference path (56a) is divided into two-way through above-mentioned SPOT heat bonding portion (62), resides in side auxiliary balloon (54), and this can reduce the air velocity of discharge to greatest extent.In addition, can also by near or form the bond locations of above-mentioned SPOT heat bonding portion (62) away from difference path (56a) outlet (56c), regulate the air velocity of discharge with this.

The result, the present invention is by SPOT heat bonding portion (60,62), make the air of discharging in flowing into central auxiliary balloon (52) process, be divided into two-way by a drain passageway (50a), and the air that resides in central auxiliary balloon (52) by two difference paths (56a) now is divided into 4 the tunnel, flows into side auxiliary balloon (54), owing to had this discharge structure, so can stably regulate the velocity of discharge of air.

Below with reference to Fig. 3 to Fig. 7 b, the effect that is provided with the ventilative shoes of liner and gas permeable devices in of the present invention is described.

At first, the liner that belongs to main composition of the present invention and the manufacturing process of gas permeable devices (20) are described.

As shown in Figure 3, liner and gas permeable devices (20) are to make air pump (22) and air duct (38) respectively substantially, utilize high frequency that its connecting portion is carried out heat bonding then and are made.

At first, after placing sponge (32) and elastic component (36) on the lower gasket (26) successively, add a cover upper gasket (24) thereon, make air pump (22).

Then, through the operation of going ahead of the rest, after producing the air duct (38) that has connecting line (44) and air bag (48), the connecting line of above-mentioned air duct (38) (44) inlet (44a) part is inserted between air pump (22) the air discharge pipe (30), then utilize high frequency to make the upper and lower part pad (24 of air pump (22), 26) heat bonding all around makes air duct (38) and air pump (22) bonding mutually, makes liner and gas permeable devices (20).

At this moment, by being inserted in the non-conductor (46) of air duct (38) connecting line (44) inlet (44a), in the process of bonding air pump (22) and air duct (38), together not bonding, the obstruction of the inlet (44a) of connecting line (44), but can keep open state.

The following describes the effect of the shoes that the liner as above made and gas permeable devices (20) have been installed.

Liner and gas permeable devices (20) are being installed under the state of shoes, and after the pedestrian began walking, shown in Fig. 6 a and Fig. 6 b, heel part at first landed, and in this process, air pump (22) shrinks, and sucks air by inlet hole (26a).At this moment, air pump (22) is after the air suction is finished, and the elastic component (36) by sponge (32) and the above-mentioned sponge of resiliency supported (32) can be reduced to original state rapidly.

Subsequently, suck after air in the above-mentioned air pump (22) is supplied to air discharge pipe (30), flow into the connecting line (44) that is inserted in the air duct (38) between the above-mentioned air discharge pipe (30).At this moment, be inserted in non-conductor (46) the performance check-valves function of above-mentioned connecting line (44) inlet (44a), make an air folk prescription to passing through.Promptly, shown in Fig. 7 a and Fig. 7 b, under the air pressure effect that is supplied to air discharge pipe (30), slit (K) appears in non-conductor (46) above and below that is inserted in connecting line (44) inlet (44a), and air flows into connecting line (44) by above-mentioned slit (K).In addition, after air flowed into and finishes, non-conductor (46) above and below was enclosed within connecting line (44) again, thereby prevents air inversion, and the air that flows into above-mentioned connecting line (44) resides in air bag (48) subsequently.

Then, as shown in Figure 4, pedestrian's sole part (sole) contacts above-mentioned air bag (48), and performance liner cushion effect relaxes the impact to pedestrian's sole under the air pressure that resides in above-mentioned air bag (48).

Meanwhile, the air that resides in above-mentioned air bag (48) is under foot under the squeeze pressure of plate, after flowing into central auxiliary balloon (52) by drain passageway (50a), flow into side auxiliary balloon (54) by difference path (56a), subsequently, go up the outlet (58) that forms by side auxiliary balloon (54) and flow into shoes inside.Promptly.The air that resides in air bag (48) is by a plurality of drain passageways (50a) and difference path (52a), after a plurality of auxiliary balloon (48a) (from central auxiliary balloon (52) to side auxiliary balloon (54)), inflow shoes inside, thereby can prolong the efflux time of air, keep the liner cushion effect of air bag (48) for a long time.

In addition, as shown in Figure 5,, drain passageway (50a) and difference path (56a) diameter narrow down by being exported gradually from entering the mouth to, can make and prolong the air efflux time, improve pressure, guarantee stable the discharge, this structure can more effectively prolong the liner cushion effect of air bag (48).

On the other hand, as mentioned above, the air of retaining in air bag (48) is discharged in the process of central auxiliary balloon (52) and side auxiliary balloon (54) by drain passageway (50a) and difference path (56a), the SPOT heat bonding portion (60 of bonding formation in central authorities' auxiliary balloon (52) and the side auxiliary balloon (56), 62) regulate drain passageway (50a) outlet (50c) and difference path (56a) outlet (56c), thereby can regulate the efflux time of air.

Fig. 8 shows the liner of another embodiment of the present invention and the plane of gas permeable devices, has used same reference marks at same formation, and omits the detailed description to this.

The air pump (22) of the liner of another embodiment and gas permeable devices (20a) in the wings, in the air discharge pipe (30) that above-mentioned air pump (22) is had, air duct (38) is made of the 2nd air bag (49) and air bag (48).

Above-mentioned the 2nd air bag (49) is positioned at the sole central part, i.e. sole recess, and when the 2nd air bag (49) expands because of air flows into, the central part of feet base plate.

Between air discharge pipe (30) and the 2nd air bag (49), formation makes an air folk prescription to the non-conductor that passes through (46), forms the 2nd drain passageway (49a) between above-mentioned the 2nd air bag (49) and air bag (48).

Above-mentioned the 2nd drain passageway (49a) forms more and more narrowly to outlet (49c) diameter from inlet (49b), and this is the velocity of discharge that is discharged to the air of air bag (48) from the 2nd air bag (49) in order to reduce, and makes the 2nd air bag (49) have the liner cushion effect.

The following describes the liner of another embodiment that as above constitutes and the active state of gas permeable devices, same formation has same active state, therefore omits the Action Specification to it.

At first, liner and gas permeable devices (20a) are being installed under the state of shoes, after the pedestrian begins walking, heel part at first lands, and in this process, air pump (22) shrinks, suck extraneous air, above-mentioned inhaled air flows into air duct (38) by air discharge pipe (30).

In addition, above-mentioned air duct (38) is made of the 2nd air bag (49) and air bag (48), and the air of discharging from above-mentioned air discharge pipe (30) makes an air folk prescription to inflow under the effect of non-conductor (46), the 2nd air bag (49) thereby expand.

And, the air that flows into above-mentioned the 2nd air bag (49) flows into air bag (48) by the 2nd drain passageway (49a), but the diameter of above-mentioned the 2nd drain passageway (49a) narrows down to outlet (49c) gradually from inlet (49b), thereby prolong the efflux time of air, improve the liner cushion effect, the central part of feet base plate.

In addition, the air of discharging by the 2nd drain passageway (49a) of above-mentioned the 2nd air bag (49) flows into air bag (48), as previously mentioned, flows into auxiliary balloon by air bag (48), is discharged to the outside by the outlet that forms on the above-mentioned auxiliary balloon.

In sum, the present invention's ventilative shoes of having a padding function have following multi-effect.

At first, the present invention has and can by the sponge of establishing in the air pump, prevent that inhaling action because of long-time pump causes gas The pump reducing power descends, and realizes that smoothly the pump of air pump is inhaled the effect of moving.

In addition, utilize disposable high frequency heat Method for bonding, make air pump and consisted of by Bas Discharged pipe and air duct Liner and ventilative device, have the effect that can simplify flow chart, in addition, can also be anti-by non-conductor Ending the connecting line entrance stops up in bonding process.

In addition, the present invention has can postpone retention Bas Discharged shoes inside in the air duct to greatest extent, makes The effect of cushion force retaining longer time.

In addition, have can be the effect of discharging the air centralizedly supply and giving the perspiration position in the present invention.

Claims (9)

1, is provided with the shoes of liner and gas permeable devices in a kind of, at the air pump that has the air discharge pipe by a side, have that the air duct of the connecting line that is connected in above-mentioned air pump air discharge pipe and air bag constitutes in be provided with the shoes of liner and gas permeable devices, it is characterized in that: air pump is that the upper gasket that has hollow bulb is placed on the lower gasket that has inlet hole, utilizes high frequency that the heat bonding all around of above-mentioned upper and lower part pad is constituted; Above-mentioned upper and lower part pad is inner also built-in has the sponge of contraction and reducing power.

2, be provided with the shoes of liner and gas permeable devices in according to claim 1, it is characterized in that: in the inside of above-mentioned upper and lower part pad, also built-in one places above the above-mentioned sponge, along around prolong the elastic component that forms elastic bumps portion.

3, according to claim 1 or sharp 2 shoes that are provided with liner and gas permeable devices in described that require, it is characterized in that: the connecting line inlet that forms on above-mentioned air duct, insert to be different from the non-conductor that the air duct material is made.

4, be provided with the shoes of liner and gas permeable devices in according to claim 3, it is characterized in that: in the front side of air bag, the auxiliary balloon that is used to make air be discharged to shoes inside is separated to form heat bonding portion; Above-mentioned auxiliary balloon is communicated with the drain passageway of the central formation of above-mentioned heat bonding portion.

5, be provided with the shoes of liner and gas permeable devices in according to claim 4, it is characterized in that: above-mentioned drain passageway forms more and more narrowly to exporting from inlet.

6, be provided with the shoes of liner and gas permeable devices in according to claim 5, it is characterized in that: above-mentioned auxiliary balloon is divided into central auxiliary balloon and the side auxiliary balloon that is communicated with above-mentioned drain passageway, the side auxiliary balloon is positioned at above-mentioned central auxiliary balloon both sides, be separated under the state of auxiliary heat bonding part with above-mentioned central auxiliary balloon, be communicated with central auxiliary balloon by the difference path that forms on the above-mentioned auxiliary heat bonding part.

7, be provided with the shoes of liner and gas permeable devices in according to claim 6, it is characterized in that: above-mentioned difference path forms more and more narrowly to exporting from inlet.

8, be provided with the shoes of liner and gas permeable devices in according to claim 6, it is characterized in that: in above-mentioned central auxiliary balloon and side auxiliary balloon, bonding formation SPOT heat bonding portion.

9, be provided with the shoes of liner and gas permeable devices in according to claim 1, it is characterized in that: above-mentioned connecting line is made of the 2nd air bag, the 2nd air bag is formed with the 2nd drain passageway, the 2nd drain passageway is connected in air tube connector one side, and opposite side is connected in air bag, its diameter exports gradually from entering the mouth to and narrows down, so that reduce the air velocity of discharge that flows into above-mentioned air bag.

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