Shoes Capable of Buffering Shock by Air Circulation
The present invention relates to an air-circulation type shock buffering footwear which can absorb and alleviate a shock applied on a foot, allow the air ventilation through the inside and give a pleasant and comfortable feeling to the wearer for many hours. The inventive shoe comprises the first and second air rooms formed respectively in the front and rear of and on the underside of the middle sole layer, said first and second air rooms communicating with each other through passages; a plurality of sucking holes formed in the inner sole layer to communicate with throughholes of the first air room; the first and second buffering members respectively incorporated in the first and second air rooms for both alleviating shock and circulating the air; the first check valve disposed in the front of the second air room to open or close the passages; and the second check valve disposed in the rear of the second check valve to communicate with the outside so as to discharge the air.
The present invention relates to a footwear to put feet in, and more specifically to an air-circulation type shock buffering footwear, which can absorb and alleviate the shock applied on the feet of a wearer during a walk or run, through the interior of which air ventilation is smoothly performed during a walk or jogging and which a wearer can wear for a long time in a comfortable condition.
BACKGROUND ARTGenerally, the footwear is used to put feet in for walking, is indispensable in daily life and is classified into several tens of kinds, wherein the footwear comprises, according to the use and function, sporting shoes, ordinary shoes, slippers, basketball shoes, football shoes, golf shoes, military shoes, and mountain-climbing boots etc.
Recently, shoes which became more comfortable and could help the health by the addition of various functions are being developed.
On the other hand, the modern persons actually live with various physical problems such as corpulence due to insufficient exercise and over-nourishment.
These days, many persons are seen to take exercise like jogging in parks and the like in the morning for the improvement in health, wherein the joggers wear relatively light footwear and training suit.
However, conventional shoes had the problem in that buffering function to prevent undue shock from being applied to the leg joints lacked during walking or running, thus doing harm to cartilages of joints and spine. The conventional shoes also had the problem that its cushioning action was construction-wise poor to cause early fatigue of feet and was not suited for increasing quantity of exercise, giving no much help to health improvement. Specially, the shock originating from the body weight of a wear was directly transferred to the feet when walking or running so as to increase the feeling of tiredness as time lapsed.
Further, the inward ventilation did not occur due to the original design in the conventional shoes, resulting in the problem of fast stagnation of sweat. Furthermore, drying the sweat gathered on feet could not be conducted to make it impossible to avoid the bacteria proliferation including mold, with the result that the problem of smelling on feet or generation of water-eczema arose.
SUMMARY OF INVENTIONThe present invention was created to resolve the problem with the conventional art as described above. The object of the invention is to provide an air-circulation type shock buffering footwear, wherein the shock applied on the feet of a wear during walking or running is absorbed so as to decrease the feet tiredness and simultaneously to double exercise quantity and additionally the ventilation into the interior of footwear is smoothly conducted during walking or running so as to remove the foot smell and simultaneously to prevent the generation of athlete's foot and thus to allow the wear to wear the footwear in pleasant condition for a long time.
To achieve the above-described object, the present invention provides according to an aspect that the first and second air rooms are formed in the front and rear positions under the middle sole layer, the first and second air rooms communicating with each other through passages, the inner shoe layer is perforated with a plurality of sucking holes communicating with the first air room, the first and second air rooms are provided with the first and second buffering member for alleviating shock and for circulating air, the first check valve is installed for opening and closing the passages in the front of the second air room, and the second check valve for discharging air to the outside is installed in the rear of the second air room.
BRIEF DESCRIPTION OF DRAWINGSFIGS. 1 to 21 relate to the first embodiment of the invention, wherein
FIGS. 22 to 27 relate to the second embodiment of the invention, wherein
FIGS. 28 to 30 relate to the third embodiment of the invention, wherein
FIGS. 31 to 60 relate to the fourth embodiment of the invention, wherein
The technical construction of the invention according to preferred embodiments of the invention is described in detail below by referring to the accompanying drawings.
An air-circulation type shock buffering footwear according to the first embodiment of the invention, which is provided with an inner sole layer 10, a middle sole layer 20 and a bottom sole piece 30, is characterized, as shown in FIGS. 1 to 21, in that the footwear S1 includes further the first and second air rooms 22 and 23 formed respectively in the front and rear of and on the underside of the middle sole layer 20, said first and second air rooms communicating with each other through passages 21; a plurality of sucking holes 11 formed in the inner sole layer 10 to communicate with through-holes 22a of the first air room 22; the first and second buffering members 40 and 50 respectively incorporated in the first and second air rooms 22 and 23 for both alleviating shock and circulating the air; the first check valve 60 disposed in the front of the second air room 23 to open or close the passages 21; and the second check valve 70 disposed in the rear of the second check valve 23 to communicate with the outside so as to discharge the air.
The shoe S1, like most of other shoes, comprises an inner sole layer 10, a middle sole layer 20 and a bottom sole piece 30, wherein the shoe S1 may be in varied size depending on the age, sex and foot size of a user. Although the constructional characteristics of the shoe S1 according to the first embodiment of the invention can be applied to all sorts of footwear, it is most preferably applicable to the sporting shoe.
The sucking holes 11 are perforated in the front of the inner sole layer, wherein these holes communicate with through-holes 22a of the first air room 22. Fresh air is introduced into a number of sucking holes 11 formed on the inner sole layer 10 when the wearer walks.
The above-described passages 21 are formed midway on the underside of the middle sole layer 20, wherein the both ends of the passages 21 communicate with the first and second air rooms 22 and 23 respectively. The passages 21 are formed on the both sides of the middle sole layer 20.
The first air room 22 is formed in the front underside of the middle sole layer 20, wherein plural through-holes 22a are formed on the top of the first air room 22 to communicate with the sucking holes 11 of the inner sole layer 10 and the first air room 22 is provided with the first buffering member 40.
The second air room 23 is formed in the rear underside of the middle sole layer 20 to communicate with the first air room 22 through the passages 21, wherein the first check valve 60 to open or close the passages 21 when a wearer walks is disposed in the front of the second air room 23, while the second check valve 70 is disposed in the rear of the second air room 23 in order to discharge the air outside. Here, the second air room 23 is provided with the second buffering member 50.
The first buffering member 40 is incorporated in the first air room 22 to alleviate possible shock during walking and simultaneously to circulate the air, wherein the first buffering member 40 according to this embodiment of the invention, as shown in FIGS. 1 to 15, which communicates with the through-holes 22a of the first air room 22, includes downward several flexible thick-walled buffering tubes 41 formed with plural cutout parts 41a. The buffering tubes 41 are formed integrally with the middle sole layer 20 and the bottoms of the buffering tubes 41 are adhered to the top of a bottom sole piece 30.
Accordingly, when the front part of a wearer's foot sole presses the middle sole layer 20 when the man walks, as shown in
The first buffering member 40 according to a variant embodiment, as shown in FIGS. 16 to 21, is characterized in that this member comprises plural corrugated tubes 44 and guiding tubes 45 formed respectively to correspond to a top and bottom plate 42 and 43 and combined with each other; sucking tubes 46 projecting into the corrugated tubes 44; projections 47 projecting inside the guiding tubes 45 to open and close the sucking tubes 46; passages 48 formed on the top of the bottom plate 43 to communicate with the guiding tubes 45; and springs 49 housed inside the corrugated tubes 44 and further the first air room 22 is formed with a passage 22b to communicate with the sucking tubes 45.
The first buffering member 40 according to this variant embodiment will be explained more fully in the next section of the second buffering member 50, because its construction and operation are identical to the second one.
The second buffering member 50, which is housed in the second air room 23 to both alleviate shock and circulate air, is characterized in that this member comprises plural corrugated tubes 53 and guiding tubes 54 formed respectively to correspond to a top and bottom plate 51 and 52 and combined with each other; sucking tubes 55 projecting into the corrugated tubes 53; projections 56 projecting inside the guiding tubes 54 to open and close the sucking tubes 55; passages 57 formed on the top of the bottom plate 52 to communicate with the guiding tubes 54; and springs 58 housed inside the corrugated tubes 53, and additionally the second air room 23 is formed with a passage 23a to communicate with the sucking tubes 55.
The top and bottom plates 51 and 52 are made of a pliable flexible material wherein the top plate 51 is adhered to the second air room 23 and the bottom plate 52 is adhered to the bottom sole piece 30. The top plate 51 is so constructed as to have a central opening as seen in
The corrugated tubes 53 are formed in plurality integrally with and under the top plate 51, so that these corrugated tubes 53 may be compressed and expanded to absorb and damp any shock during walking.
The guiding tubes 54, which are formed in plurality integrally with and on the bottom plate 52, act to guide the compression and expansion motions of the corrugated plates 53.
The sucking tubes 55, which project inside and integrally with the corrugated tubes 53, are each formed, at the center thereof, with a sucking hole 55a to communicate with a passage 23a of the second air room 23. The bottoms of sucking tubes 55 are to be in a round form.
The projections 56 projecting integrally with and inside the guiding tubes 54 act to open or close the sucking tubes 55 during walking and act as stoppers to separate the spacing of the top and bottom plates 51 and 52. The top of a projection 56 is formed concavely.
The passages 57 formed on the top of the bottom plate 52 to communicate with the guiding tubes 54 act to discharge the air at the compression cycle of the corrugated tubes 53.
The above-described springs 58 housed in corrugated tubes 53 act to give elasticity to them.
On the other hand, the passage 23a of the second air room 23 is formed in the form of ‘⊃’ so as to communicate with the passages 55a of the sucking tubes 55, wherein the passage 23a performs the role of sucking air at the expansion cycle of the corrugated tubes 53.
Accordingly, when the rear part of a wearer's foot sole is pressed on the middle sole layer 20 during a walk, as seen
The first check valve 60 disposed in the front of the second air room 23 acts to close or open the passages 21 during a wearer's walking, wherein this check valve 60 closes the passages 21 at the time of compression of the second air room 23 and opens the passages 21 at the time of expansion of the second air room 23.
The second check valve 70 is disposed in the rear of the second air room 23 in a manner of communicating with the outside to discharge the inside air, wherein this check valve 70 is opened at the time of the second air room 23 being compressed to discharge the air outward and on the other hand, this check valve 70 is closed to prevent the air discharge during the period when the second air room 23 is in expansion cycle.
The overall operation of the air-circulation type shock absorbing footwear according to the first embodiment of the invention, constructed as above, is described in detail below.
In the normal time when the shoe S1 is not put on by a person, the first and second air rooms 22 and 23 stay in expanded state due to the inherent elasticity of the first and second shock buffering members 40 and 50.
When a person walks or runs with the shoes S1 on, the first and second air rooms 22 and 23 including the first and second buffering members 40 and 50 are elastically compressed and expanded to perform the shock buffering function as well as the air circulation function.
First, when the rear part of the wearer's foot sole is pressed on the second air room 23 during walking, as seen in
Next, when the front part of the wearer's foot sole is pressed on the first air room 22 during walking, as seen in
On the other hand, when the shoe S1 is completely isolated from the ground during walking, as seen in
Further, sucking force is generated as the first air room 22 in conjunction with the first buffering member 40 returns to the original expanded state, simultaneously the through-holes 22a being opened, so that the fresh air is introduced into the first air room 22 through the sucking holes 11 on the inner sole layer 10. Such fresh air having entered the first air room 22 is naturally introduced to the second air room 23 through the passages 21, whereby the fresh air can circulate continuously through the inside of the shoe S1 when the shoe wearer walks.
An air-circulation type shock buffering footwear according to the second embodiment of the invention, which footwear is provided with an inner sole layer 100, a middle sole layer 200 and a bottom sole piece 300, is characterized, as shown in FIGS. 22 to 27, in that the footwear S2 includes further the first and second air rooms 320 and 330 formed respectively in the front and rear of and above the bottom sole piece 300, the first and second air rooms communicating with each other through passages 310; a plurality of sucking holes 110 and 210 formed on the inner and middle sole layers 100 and 200 to communicate with the first air room 320; the first and second buffering members 400 and 500 respectively incorporated in the first and second air rooms 320 and 330 for both alleviating shock and circulating air; the first check valve 600 disposed in the front of the second air room 330 to open or close the passages 310; and the second check valve 700 disposed in the rear of the second air room 330 so as to communicate with the outside to discharge the air.
Here, the shoe S2, like most of other shoes, comprises an inner sole layer 100, a middle sole layer 200 and a bottom sole piece 300, wherein the shoe S2 may be in varied size depending on the age, sex and foot size of a user. Although the constructional characteristics of the shoe S2 according to the second embodiment of the invention can be applied to all sorts of footwear, it is most preferably applicable to the ordinary low shoes.
The sucking holes 110 and 210 are perforated in the front of the inner and middle sole layers 100 and 200 and connected to each other, wherein these holes communicate with the first air room 320 formed on the bottom sole layer 300. Fresh air is introduced through a number of sucking holes 110 formed on the inner sole layer 100 when the wearer walks.
The above-described passages 310 are formed in the top middle locations of the bottom sole piece 300, wherein the both ends of the passages 310 communicate with the first and second air rooms 320 and 330 respectively. The passages 310 are formed on the both sides of the bottom sole piece 300.
The first air room 320 is formed in the front top of the bottom sole piece 300, and encloses the first buffering member 400.
The second air room 330 is formed in the rear top of the bottom sole piece 300 to communicate with the first air room 320 through the passages 310, wherein the first check valve 600 to open or close the passages 310 when a wearer walks is disposed in the front of the second air room 330, while the second check valve 700 is disposed in the rear of the second air room 330 in order to discharge the air outside. Here, the second air room 330 is provided with the second buffering member 500.
The first buffering member 400 is incorporated in the first air room 320 to alleviate possible shock during walking and simultaneously to circulate the air, wherein the first buffering member 400 according to this embodiment of the invention, as shown in
Accordingly, when the front part of a wearer's foot sole presses the middle sole layer 200 when the man walks, the buffering tubes 410 are caused to be compressed to absorb and alleviate shock and further the lower portions of the respective buffering tubes 410 are spreaded or collapsed outward by means of many cutout parts 411 and so their bottom sides contact tightly the bottom of the first air room 320 so as to block the sucking holes 210. At this instant, although a part of the air in the first air room 320 is discharged, due to somewhat higher air pressure, to the passages 310, the outside air cannot be introduced due to the closure of sucking holes 210.
The first buffering member 400 according to a variant embodiment, as shown in
The first buffering member 400 according to this variant embodiment will not be explained again, because its construction and operation are identical to the second buffering member 50 of the first embodiment.
The second buffering member 500, which is housed in the second air room 330 to both alleviate shock and circulate air, is characterized in that this member 500 comprises plural corrugated tubes 530 and guiding tubes 540 formed respectively to correspond to a top and bottom plate 510 and 520 and combined mutually; sucking tubes 550 projecting inside the corrugated tubes 530; projections 560 projecting inside the guiding tubes 540 to open and close the sucking tubes 550; passages 570 formed on the top surface of the bottom plate 520 to communicate with the guiding tubes 540; and springs 580 housed inside the corrugated tubes 530, and additionally a passage 230 is formed on the underside of the middle sole layer 200 to communicate with the sucking tubes 550.
The description of the second buffering member 500 according to this variant embodiment is omitted, because its structure and operation is the same as that of the first embodiment.
The first check valve 600 disposed in the front of the second air room 330 acts to close or open the passages 210 during a wearer's walking, wherein this check valve 600 closes the passages 210 at the time of the second air room 330 being pressurized or compressed and opens the passages 210 at the time of the second air room 330 being depressurized or expanded.
The second check valve 700 is disposed in the rear of the second air room 330 in a manner of communicating with the outside to discharge the inside air, wherein this check valve 700 is opened at the time of the second air room 330 being compressed to discharge the air outward and on the other hand, this check valve 700 is closed to prevent the air discharge during the period of expansion cycle.
The overall operation of the air-circulation type shock absorbing footwear according to the second embodiment of the invention, constructed as above, is described below.
In the normal time when the shoe S2 is not put on by a person, the first and second air rooms 320 and 330 stay in expanded state due to the inherent elasticity of the first and second shock buffering members 400 and 500.
When a person walks or runs with the footwear S2 on, the first and second air rooms 320 and 330 including the first and second buffering members 400 and 500 are elastically compressed and expanded to perform the shock buffering function as well as the air circulation function.
First, when the rear part of the wearer's foot sole is pressed on an inner sole layer 100 and a middle sole layer 200 during walking, the second air room 330 is compressed, with the result that the corrugated tubes 530 and springs 580 of the second buffering member 500 are compressed to absorb the shock and concurrently the pressurized air in the second air room 330 is discharged to the outside through the second check valve 700, while the passages 310 are closed because the first check valves 600 are firmly thrust to the passages 310 by the pressurized air in the second room 330. At this moment, the air in the corrugated tubes 530, which air was pressurized mostly by the decreased inside volume of these tubes 530, is discharged to the second air room 330 through passages 570, while the sucking tubes 550 come to be shut at the limit because the projections 560 are brought into contact with the sucking tubes 550.
Next, when the front part of the wearer's foot sole is pressed on an inner sole layer 100 and a middle sole layer 200 during walking, the first air room 320 is subjected to the compression, with the result that the first buffering member 400 is compressed to absorb and damp the shock and concurrently a part of the air pressurized in the first air room 320 is discharged to the passages 310 to open partially the first check valve 600. At the same time, the buffering tubes 410 of the first buffering member 400 are contracted so as to collapse the bottom parts of buffering tubes 410 on the bottom piece to thereby block the latter, whereby the sucking holes 210 are closed together with the sucking holes 110 on the inner sole layer 100. That is, the external air is not introduced into the shoe, because the sucking holes 110 and 210 are shut off.
On the other hand, as the subsequent step, when the shoe S2 is completely isolated from the ground during walking, the first and second air rooms 320 and 330 are returned to the original expanded state due to the restoring force of the first and second buffering members 400 and 500, with the result that a sucking force due to the lean air with respect to the outer atmosphere is generated in the second air room 330 because of the expansion or increased volume of corrugated tubes 530 in the second air room 330. At the same time, because the first check valve 60 is automatically opened by the sucking force generated in the second air room 330, the second air room 330 is communicated with the first air room 320 via passages 310 and the second check valve 700 maintains its closed state due to the still sub-atmospheric pressure in this room 330. At this moment, the sucking force is present in the corrugated tubes 530 which were expanded by the restoring force, while sucking tubes 550 are unblocked due to their separation from the projections 560.
Further, sucking force is also generated as the first air room 320 in conjunction with the first buffering member 400 returns to the original expanded state due to the opened state in the passages 310, simultaneously the sucking holes 210 becoming unblocked or opened, so that the fresh air is introduced into the first air room 320 through the sucking holes 110 on the inner sole layer 100. Such fresh air having entered the first air room 320 is naturally introduced to the second air room 330 through the passages 310, whereby the fresh air can circulate steadily through the inside of the shoe S2 when the shoe wearer walks.
An air-circulation type shock buffering footwear according to the third embodiment of the invention, which is provided with an inner sole layer 1000, a middle sole layer 2000 and a bottom sole piece 3000, is characterized, as shown in FIGS. 28 to 30, in that the footwear S3 includes further an air room 3100 formed on the rear top of the bottom sole piece 3000; plural passages 3200 extending from the air room 3100 to front locations; plural sucking holes 1100 and 2100 formed in a front location of the inner and middle sole layers 1000 and 2000 in manner of communicating with the passages 3200; a buffering member 4000 incorporated in the air room 3100 for both alleviating shock and circulating air; the first check valve 5000 disposed in the front of the air room 3100 to open or close the passages 3200; and the second check valve 6000 disposed in the rear of the air room 3100 so as to communicate with the outside to discharge the air.
Here, the shoe S3, like most of other shoes, is provided with an inner sole layer 1000, a middle sole layer 2000 and a bottom sole piece 3000, wherein the shoe S3 may be in varied size depending on the age, sex and foot size of a user. Although the constructional characteristics of the shoe S3 according to the third embodiment of the invention can be applied to all sorts of footwear, it is most preferably applicable to the ordinary low shoes.
The sucking holes 1100 and 2100, in the aligned manner, are perforated in a front location of the inner and middle sole layers 1000 and 2000 to be connected to each other, and communicated with the passages 3200 formed on the bottom sole layer 3000. Fresh air is introduced through a number of sucking holes 1100 formed on the inner sole layer 1000 when the wearer walks.
The above-described air room 3100 are formed on the top rear location of the bottom sole piece 3000, wherein the first check valve 5000 is installed in the front of the air room 3100 to open or close the passages 3200 during walking while the second check valve 6000 is installed in the rear of the air room 3100 to discharge the air to the outside. A buffering member 4000 is disposed in the air room 3100.
The passages 3200 formed on the top of the bottom sole piece 3000 extend lengthily forward from sole center and communicate with the air room 3100. The arrangement of the passages 3200 is shown in
The buffering member 4000, which is disposed in the air room 3100 to both alleviate shock and take part in air circulation, is characterized in that this member 4000 comprises plural corrugated tubes 4300 and guiding tubes 4400 formed respectively to correspond to a top and bottom plate 4100 and 4200 and combined with each other; sucking tubes 4500 projecting inside the corrugated tubes 4300; projections 4600 projecting inside the guiding tubes 4400 to open and close the sucking tubes 4500; passages 4700 formed on the top of the bottom plate 4200 to communicate with the guiding tubes 4400; and springs 4800 housed inside the corrugated tubes 4300, and additionally a passage 2200 to communicate with the sucking tubes 4500 is formed on the underside of the middle sole layer 2000.
The further description of this buffering member 4000 is omitted, because its structure and operation are the same as those of the second buffering member 50 in the first embodiment of the invention.
The first check valve 5000 disposed in the front of the air room 3100 acts to close or open the passages 3200 during a wearer's walking, wherein this check valve 5000 closes the passages 3200 at the time of the air room 3100 being compressed and opens the passages 3200 at the time of the air room 3100 being expanded.
The second check valve 6000 is disposed in the rear of the air room 3100 in a manner of communicating with the outside to discharge the inside air, wherein this check valve 6000 is opened at the time of the air room 3100 being compressed to discharge the air outward and on the other hand, this check valve 6000 is closed to prevent the air discharge during the period of expansion cycle.
The overall operation of the air-circulation type shock absorbing footwear according to the third embodiment of the invention, constructed as above, is described in detail below.
In the normal time when the shoe S3 is not put on by a person, the air room 3100 maintains the expanded state by the elasticity of the buffering members 4000.
When a person walks or runs with the shoes S3 on, both the shock buffering action and air circulation action are performed mainly by the air room 3100 and buffering member 4000 based on the elasticity through repeated compressions and expansions.
First, when the rear part of the wearer's foot sole is pressed on the inner and middle sole layer 1000 and 2000 during walking, the air room 3100 is caused to compress to result in the compression of the corrugated tubes 4300 and springs 4800 of the buffering member 4000 so as to absorb the shock. At the same time, the pressurized air in the air room 3100 is discharged to the outside through the second check valve 6000, while the passages 3200 come to be blocked because the first check valve 5000 is firmly pushed to the passages 3200 due to the pressure of pressurized air in the air room 3100. At this moment, the air in the corrugated tubes 4300, which air is pressurized mostly by the decreased inside volume of these tubes 4300, is discharged to the air room 3100 through passages 4700, while the sucking tubes 4500 are shut because the projections 4600 are touched with these sucking tubes 4500.
Next, when the shoe S3 is completely isolated from the ground during walking, the air room 3100 is returned to the original expanded state due to the restoring force of the buffering member 4000, with the result that the sucking force is generated in the air room 3100 because of the expansion of corrugated tubes 4300 in the buffering member 4000. At the same time, because the first check valves 5000 is automatically opened by the sucking force generated in the air room 3100, the air room 3100 is communicated with the passages 3200 and the second check valve 6000 maintains its closed state. At this moment, the sucking force is automatically generated in the corrugated tubes 4300 by the restoring force, while sucking tubes 4500 are opened due to their separation from the projections 4600.
In addition, as indicated above, the passages 3200 are communicated with the air room 3100 through the opened first check valve 5000, causing the external fresh air to flow in the passages 3200 through sucking holes 1100 and 2100. The fresh air penetrated in the passages 3200 is naturally flowed into the air room 3100 due to the sucking force, whereby the fresh air can steadily enter and circulate through the inside of shoes S3 in which the wearer's feet are positioned.
An air-circulation type shock buffering footwear according to the fourth embodiment of the invention is characterized, as shown in FIGS. 31 to 60, in that the footwear S4 provided with an inner sole layer A10 and a bottom sole piece A20 includes further plural sucking holes A11 perforated in the front locations of the inner sole layer A10 and a passage A12 formed in the rear underside of the inner sole layer A10; an air room A21 formed on the rear top of the bottom sole piece A20, said air room being provided with plural nuts A21a vertically extending through the bottom piece, and passages A22 extending toward the front starting from the air room A21; a buffering member A30 disposed on the air room A21, said buffering member being provided with plural corrugated tubes A31 and sucking tubes A32; a prop member A40 disposed under the buffering member A30, said prop member being provided with plural guiding tubes A41, assembling holes A42 and passages A43; plural springs A50 inserted in the corrugated tubes A31, said springs having been introduced through the assembling holes A42; plural supporting members A60 fitted in the assembling holes A42, each of said supporting members being provided with a screw A61 to engage with the nut A21a, a projection A62 to open or close a sucking tube A32 and a passage A63; and first check valves A70 disposed in the air room A21 to open or close the passages A22 and a second check valve A80 to discharge air to the outside.
Here, the shoe S4, like most of other shoes, is provided with an inner sole layer A10 and a bottom sole piece A20, wherein this shoe S4 may be in varied size depending on the age, sex and foot size of a user. Although the constructional characteristics of the shoe S4 according to the fourth embodiment of the invention can be applied to all sorts of footwear, this kind of shoe is specially applicable to military shoes.
The sucking holes A11 are perforated in a front location of the inner sole layer A10 and are communicated with the passages A22 formed on the bottom sole piece A20. At this time, fresh air is introduced in the sucking holes A11 formed on the inner sole layer A10 when a wearer is walks.
The passage A12 is formed in the rear underside of the inner sole layer A10 and is formed approximately in the form of ‘⊃’ so as to communicate with the respective sucking tubes A32, wherein this passage A12 acts to suck or collect the air when the corrugated tubes A31 of the buffering member A30 expand and contract.
The air room A21 is formed on the rear top of the bottom sole piece A20 which is provided with plural nuts A21a, these nuts having been inserted through the thickness of the bottom piece and extending vertically. The first check valves A70 are disposed in the air room A21 to open or close the passages A22 and the second check valve A80 positioned in the rear or side of the air room A21 serves to discharge air to the outside. The air room A21 is provided with a buffering member A30, prop member A40 and springs A50.
The passages A22 extends lengthily toward the front, starting from approximate middle points on the top surface of the bottom sole piece A20, the middle points agreeing with the first check valves A70 of the air room A21, so that the passages A22 are communicated with the air room A21. The passages A22 have the form as shown in
The buffering member A30 is disposed on the air room A21 to absorb shock and take a part in air circulation when a wearer walks or runs, wherein this buffering member comprises plural corrugated tubes A31; plural sucking tubes A32 projecting inside the corrugated tubes A31, the sucking tubes A32 communicating with the passage A12; and a top plate A33 formed on and integrally with the several corrugated tubes A31 and sucking tubes A32. The buffering member A30 is made of a pliable flexible material.
The corrugated tubes A31 formed, in a plurality, under and integrally with the top plate A33 act to absorb and alleviate shock during a walk through expansions and contracts.
The sucking tubes A32 formed integrally with and projecting inside the corrugated tubes A31 have their interiors, i.e. sucking holes to communicate with the passage A12 of the inner sole layer A10. The lower ends of sucking tubes A32 are formed convexly.
The prop member A40 disposed under the buffering member A30 acts to support the corrugated tubes A31, wherein this prop member comprises plural guiding tubes A41 so formed as to receive the corrugated tubes A31, several assembling holes A42 formed in the guiding tubes A41, the assembling holes A42 communicating with the corresponding nuts A21a, a bottom plate A44 formed integrally with and under the guiding tubes A41 and adhered to the bottom sole layer A20, and several passages A43 formed on the top surface of the bottom plate A44 so as to communicate with the guiding tubes A41 and to run outward beyond the guiding tubes A41. The prop member A40 is made of a pliable and flexible material.
The guiding tubes A41, in a plurality, formed integrally with and on the top of the bottom plate A44 act to guide the compression and expansion motion of the corrugated tubes A31 during a walk.
The assembling holes A42 perforated vertically inside the guiding tubes A41 are formed to facilitate the replacement of the springs A50 and are fitted with the supporting members A60.
The passages A43 formed on the top surface of the bottom plate A44 so as to communicate with the guiding tubes A41 run outward beyond the guiding tubes A41 to perform the discharge of the pressurized air from the corrugated tubes A31 at the compression cycle.
The springs A50 disposed in the corrugated tubes A31 of the buffering member A30 act to add the elasticity to the corrugated tubes A31.
The supporting members A60 are screw-assembled, in a detachable manner, to the nuts A21a of the air room A21 to support the springs A50 and to facilitate the replacement of springs if required. Each of these supporting members A60 comprises a screw part A61 to engage with a nut A21a, a projection A62 formed on the top of the screw A61 to open or close a sucking tube A32 and a passage A63 in the communicating relation with a passage A43 of the prop member A40.
The screws A61 are formed integrally with the projections A62 to complete the supporting members A60 or the screws A61 are attached to the projections A62, wherein the screws A61 are screw-connected to the nuts A21a in the air room A21 detachably. Accordingly, the replacement of the springs A50 can be easily performed by disconnecting the screws A61.
The projections A62 act to open or close the sucking tubes A32 during walking and act as stoppers to regulate the spacing between the top and bottom plates A33 and A34. The top of a projection A62 is formed concavely.
The passages A63 formed on the top of the supporting members A60 to communicate with the passages A43 act to discharge the air at the compression cycle of the corrugated tubes A31.
On the other hand, whereas
The supporting member A60 is characterized, according to another embodiment, in that the screw A61 is formed, at its bottom, with a slippage preventing irregularity A61b, as shown in
The supporting member A60 is characterized, according to still other embodiment, in that a screw A61 made separately is attached to the underside of a supporting member A60, as shown in
The supporting member A60 is characterized, according to still other embodiment, in that a supporting member A60 and a screw A61 are formed integrally, as shown in
Accordingly, when the rear part of a wearer's foot sole is pressed on the inner sole layer A10 during a walk, as seen
Further, as described above, springs A50 can be easily replaced when needed, e.g. a troubled spring can be exchanged by a new one, because the screws A61 of supporting members A60 are screw-connected detachably to the nuts A21a in the air room A21. Further, the intensity of springs A50 may be appropriately matched with the body weight of shoe-wearers. Particularly, the springs A50 at different locations of shoe's sole surface may be chosen to vary in the intensity in response to the average treading force distribution of a shoe user or shoe users.
The first check valves A70 disposed in the front of the air room A21 act to close or open the passages A22 during a wearer's walking, wherein this check valves close the passages A22 at the time of compression of the air room A21 and open these passages at the time of expansion of the air room A21.
The second check valve A80 is disposed in the rear or side of the air room A21 in a manner of communicating with the outside to discharge the inside air, wherein this check valve A80 is opened at the time of the air room A21 being compressed to discharge the air outward and on the other hand, this second check valve A80 is closed to prevent the air discharge during the period when the air room A21 is in expansion cycle. It is to be noted that the second check valve A80 may be disposed on one side of the air room A21, even though it is shown as positioned in the rear of the air room A21 in the drawings.
The overall operation of the air-circulation type shock absorbing footwear according to the fourth embodiment of the invention, constructed as above, is described in detail below.
In the normal time when the shoe S4 is not put on by a person, the air room A21 maintains the expanded state due to the inherent elasticity of the corrugated tubes A31 and spring A50.
When a person walks or runs with the footwear S4 on, the air room A21 and the buffering member A30 as well as springs A50 are elastically compressed and expanded to perform the shock buffering function as well as the air circulation function.
First, when the rear part of the wearer's foot sole is pressed on the inner sole layer A10 during walking, as shown in
In addition, as indicated above, the passages A22 are communicated with the air room A21 through the opened first check valve A70, causing the external fresh air to flow in the passages A22 through the sucking holes A11 of the inner sole layer A10. The fresh air penetrated into the passages A22 is automatically flowed into the air room A21 due to the sucking force, whereby the fresh air can steadily enter and circulate throughout the inside of shoes S3 in which the wearer's feet are positioned.
Further, the springs A50 can be easily replaced when needed, e.g. a troubled spring can be exchanged by a new one, because the screws A61 of supporting members A60 are screw-connected detachably to the nuts A21a in the air room A21. Further, the intensity of springs A50 may be appropriately matched with the body weight of shoe-wearers. Particularly, the springs A50 at different locations of shoe's sole surface may be chosen to vary in the intensity, for optimum tension, in response to the average treading force distribution of a shoe user or shoe users.
An air-circulation type shock buffering footwear according to a variant embodiment of the invention is characterized, as shown in FIGS. 43 to 47, in that an air room A23 is formed also on the front top of the bottom sole piece A20 so as to communicate with passages A22, this air room A23 is also provided with plural nuts A23a vertically extending through the bottom piece, a buffering member A30 as well as a prop member A40 and springs A50 are also disposed on the air room A23, supporting members A60 are screw-assembled to the nuts A23a and a passage A13 is also formed on the front underside of the inner sole layer A10.
The overall operation of the air-circulation type shock absorbing footwear according to the above variant embodiment of the invention, constructed as above, is described in detail below.
In the normal time when the shoe S4 is not put on by a person, the front and rear air rooms A23 and A21 maintain the expanded state due to the inherent elasticity of the corrugated tubes A31 and springs A50 of buffering members A30 disposed in the front and rear air rooms A23 and A21.
When a person walks or runs with the footwear S4 on, the air rooms A23 and A21 and the corrugated tubes A31 as well as springs A50 are elastically compressed and expanded to perform the shock buffering function as well as the air circulation function.
First, when the rear part of the wearer's foot sole is pressed on the inner sole layer A10 during walking, as shown in
Next, when the front part of the wearer's foot sole is pressed on the inner sole layer A10 during walking, as shown in
On the other hand, as shown in
Similarly, the front air room A23 and the corrugated tubes A31 as well as springs A50 mounted in this air room are also returned to the original expanded state, with result that the external fresh air is introduced in this front air room A23 through the sucking holes A11 on the inner sole layer A10. Then, the fresh air introduced in the front air room A23 is naturally flowed into the rear air room A21 through the passages A22, whereby the external fresh air can circulate incessantly throughout the inside of the shoe S4.
An air-circulation type shock buffering footwear according to a variant embodiment of the invention is characterized, as shown in
An air-circulation type shock buffering footwear according to an other embodiment of the invention is characterized, as shown in FIGS. 50 to 60, in that the first valve installing grove A24 is formed in the rear of the passage A22, the second valve installing grooves A25 are disposed respectively on the both upper sides in the rear of the bottom sole piece A20, said second valve installing grooves each provided with a hole A25a communicating with the air room A21 and with a hole A25b communicating with the outside, the first check valve A70 is fitted in the first valve installing grove A24 and the second check valves A80 are respectively fitted in the both second valve installing grooves A25.
The above-described first check valve A70, which is mounted in the first valve installing grove A24 to open or close the passage A22, is characterized, as shown in
The above-described housing A71 is fitted air-tight in the first valve installing grove A24, wherein the inlet A71a is formed on the front bottom of the housing A71, the inlet communicating with the passage A22, the outlet A71b is formed on the rear top of the housing A71, the outlet communicating with the air room A21, the shaft pin A71c projects upward at the center of the housing A71 and a plurality of spouting openings A71d are formed radially around the shaft pin A71c.
A projection A71e for securing position is formed protrusively on an outer side of the housing A71. The first valve installing groove A24 is provided with a projection receiving slot A24a to receive the projection A71e. Accordingly, when a housing A71 is fitted in the first valve installing groove A24, with the projection A71e aligned with the projection receiving slot A24a, at the time of assembling, simple communication of the passage A22 with the inlet A71a and of the air room A21 with the outlet A71b can be easily achieved.
The valve plate A72 is made of a flexible rubber material to open or close the spouting openings A71d, wherein the valve plate A72 is formed, at its center, with the shaft hole A72a in which the shaft pin A71c is to fitted, as seen in
The cap A73 is fitted in the top part of the housing A71 to prevent the valve plate A72 from falling-off.
The operation of the first check valve A70 constructed as above is described. First, as shown in
The above-described second check valves A80, which are respectively mounted in the both second valve installing groves A25 to discharge the air, is characterized, as shown in
The above-described housings A81 are fitted air-tight in the second valve installing groves A25 on both sides. In
A projection A81e for securing position is formed protrusively on an outer side of a housing A81. The second valve installing grooves A25 are each provided with a projection receiving slot A25a to receive a projection A81e. Accordingly, when a housing A81 is fitted in the second valve installing groove A25, with the projection A81e aligned with the projection receiving slot A25a, at the time of assembling, simple communication of the hole A25a with the inlet A81a and of the hole A25b with the outlet A81b can be easily achieved.
The valve plates A82 are made of a flexible rubber material to open or close the spouting openings A81d, wherein the valve plates A82 are each formed, at its center, with a shaft hole A82a in which a shaft pin A81c is to fitted, as seen in
The caps A83 are each fitted in the top part of the housing A81 to prevent the valve plate A82 from falling-off.
The operation of the second check valves A80 constructed as above is described. First, as shown in
The air-circulation type shock buffering footwear according to various embodiments as described above has the advantages of having shock absorbing and buffering action and so reducing the fatigue of the wearer's feet owing to good cushion when the person walks or runs, helping to improve the health by increasing exercise quantity based on the construction, and preventing a variety of adults' diseases caused by the lack in exercise.
In addition, the air-circulation type shock buffering footwear has the advantage that the fresh external air can flow in the interior of the footwear to realize a smooth ventilation when the wearer walks or jumps so as to remove the smell on the feet and to prevent the athlete's foot, with the result that the wearer can wear the footwear in a pleasant and comfortable condition for many hours.
Claims
1. An air-circulation type shock buffering footwear, with an inner sole layer (10), a middle sole layer (20) and a bottom sole piece (30), characterized, in that the footwear (S1) includes further the first and second air rooms (22 and 23) formed respectively in the front and rear of and on the underside of the middle sole layer (20), said first and second air rooms communicating with each other through passages (21); a plurality of sucking holes (11) formed in the inner sole layer (10) to communicate with through-holes (22a) of the first air room (22); the first and second buffering members (40 and 50) respectively incorporated in the first and second air rooms (22 and 23) for both alleviating shock and circulating the air; the first check valve (60) disposed in the front of the second air room (23) to open or close the passages (21); and the second check valve (70) disposed in the rear of the second check valve (23) to communicate with the outside so as to discharge the air.
2. The air-circulation type shock buffering footwear according to claim 1, wherein the first buffering member (40) communicates with through-holes (22a) of the first air room (22), and comprise downward flexible buffering tubes (41) formed with plural cutout parts (41a).
3. The air-circulation type shock buffering footwear according to claim 2, wherein the buffering tubes (41) are formed integrally with the middle sole layer (20).
4. The air-circulation type shock buffering footwear according to claim 1, wherein the first buffering member (40) comprises a plurality of corrugated tubes (44) and guiding tubes (45) formed respectively to correspond to a top and bottom plate (42 and 43) and combined with each other; sucking tubes (46) projecting into the corrugated tubes (44); projections (47) projecting inside the guiding tubes (45) to open or close the sucking tubes (46); passages (48) formed on the top of the bottom plate (43) to communicate with the guiding tubes (45); and springs (49) disposed inside the corrugated tubes (44) and the first air room (22) is formed with a passage (22b) to communicate with the sucking tubes (45).
5. The air-circulation type shock buffering footwear according to claim 1, wherein the second buffering member (50) comprises a plurality of corrugated tubes (53) and guiding tubes (54) formed respectively to correspond to a top and bottom plate (51 and 52) and combined with each other; sucking tubes (55) projecting into the corrugated tubes (53); projections (56) projecting inside the guiding tubes (54) to open or close the sucking tubes (55); passages (57) formed on the top of the bottom plate (52) to communicate with the guiding tubes (54); and springs (58) disposed inside the corrugated tubes (53) and the second air room (23) is formed with a passage (23a) to communicate with the sucking tubes (55).
6. An air-circulation type shock buffering footwear with an inner sole layer (100), a middle sole layer (200) and a bottom sole piece (300), characterized in that the footwear (S2) includes further the first and second air rooms (320 and 330) formed respectively in the front and rear of and on the bottom sole piece (300), the first and second air rooms communicating with each other through passages (310); a plurality of sucking holes (110 and 210) formed respectively in the inner and middle sole layers (100 and 200), said sucking holes communicating with the first air room (320); the first and second buffering members (400 and 500) respectively disposed in the first and second air rooms (320 and 330) for both alleviating shock and circulating the air; the first check valve (600) disposed in the front of the second air room (330) to open or close the passages (310); and the second check valve (700) disposed in the rear of the second air room (330) to communicate with the outside so as to discharge the air.
7. The air-circulation type shock buffering footwear according to claim 6, wherein the first buffering member (40) communicates with the sucking holes (210) of the middle sole layer (200), and comprise downward flexible buffering tubes (410) formed with plural cutout parts (411).
8. The air-circulation type shock buffering footwear according to claim 7, wherein the buffering tubes (410) are formed integrally with the middle sole layer (200).
9. The air-circulation type shock buffering footwear according to claim 6, wherein the first buffering member (400) comprises a plurality of corrugated tubes (440) and guiding tubes (450) formed respectively to correspond to a top and bottom plate (420 and 430) and combined with each other; sucking tubes (460) projecting into the corrugated tubes (440); projections (470) projecting inside the guiding tubes (450) to open or close the sucking tubes (460); passages (480) formed on the top of the bottom plate (430) to communicate with the guiding tubes (450); and springs (490) disposed inside the corrugated tubes (440) and a passage (220) is formed on the underside of the middle sole layer (200) to communicate with the suction tubes (460).
10. The air-circulation type shock buffering footwear according to claim 6, wherein the second buffering member (500) comprises a plurality of corrugated tubes (530) and guiding tubes (540) formed respectively to correspond to a top and bottom plate (510 and 520) and combined with each other; sucking tubes (550) projecting into the corrugated tubes (530); projections (560) projecting inside the guiding tubes (540) to open or close the sucking tubes (550); passages (570) formed on the top of the bottom plate (520) to communicate with the guiding tubes (540); and springs (580) disposed inside the corrugated tubes (530) and a passage (230) is formed on the underside of the middle sole layer (200) to communicate with the suction tubes (550).
11. An air-circulation type shock buffering footwear with an inner sole layer (1000), a middle sole layer (2000) and a bottom sole piece (3000), characterized in that the footwear (S3) includes further an air room (3100) formed in the rear top of the bottom sole piece (3000); a plurality of passages (3200) extending from the air room (3100) toward the front; a plurality of sucking holes (1100 and 2100) formed in the front of the inner and middle sole layers (1000 and 2000) in a manner of communicating with the passages (3200); a buffering member (4000) incorporated in the air room (3100) for both alleviating shock and circulating air; the first check valve (5000) disposed in the front of the air room (3100) to open or close the passages (3200); and the second check valve (6000) disposed in the rear of the air room (3100) so as to communicate with the outside to discharge the air.
12. An air-circulation type shock buffering footwear provided with an inner sole layer (A10) and a bottom sole piece (A20), characterized in that the footwear (S4) includes further a plurality of sucking holes (A11) perforated in the front of the inner sole layer (A10) and a passage (A12) formed on the rear underside of the inner sole layer (A10); an air room (A21) formed on the rear top of the bottom sole piece (A20), said air room being provided with plural nuts (A21a) vertically extending through the bottom sole piece, and passages (A22) extending toward the front, starting from the air room (A21); a buffering member (A30) disposed on the air room (A21), said buffering member being provided with plural corrugated tubes (A31) and sucking tubes (A32); a prop member (A40) disposed under the buffering member (A30), said prop member being provided with plural guiding tubes (A41), assembling holes (A42) and passages (A43); a plurality of springs (A50) inserted in the corrugated tubes (A31) said springs having been introduced through the assembling holes (A42) a plurality of supporting members (A60) fitted in assembling holes (A42), each of said supporting members being provided with a screw (A61) to engage with a nut (A21a), a projection (A62) to open or close a sucking tube (A32) and a passage (A63); and first check valves (A70) disposed in the air room (A21) to open or close the passages (A22) and a second check valve (A80) to discharge air to the outside.
13. The air-circulation type shock buffering footwear according to claim 12, wherein a recess (A61a) is formed on the bottom of each of the screws (A61) of the supporting members (A60) for easy screwing or unscrewing.
14. The air-circulation type shock buffering footwear according to claim 12, wherein a slippage preventing irregularity (A61b) is formed protrusively on the bottom of each of the screws (A61) of the supporting members (A60).
15. The air-circulation type shock buffering footwear according to claim 12, wherein the supporting members (A60) are formed integrally with the screws (A61).
16. The air-circulation type shock buffering footwear according to claim 12, wherein an air room (A23) is formed also on the front top of the bottom sole piece (A20) so as to communicate with passages (A22), this air room (A23) is also provided with plural nuts (A23a) vertically extending through the bottom piece, a buffering member (A30) as well as a prop member (A40) and springs (A50) are also disposed on the air room (A23), supporting members (A60) are screw-assembled to the nuts (A23a) and a passage (A13) is also formed on the front underside of the inner sole layer (A10).
17. He air-circulation type shock buffering footwear according to claim 12 or 16, wherein an auxiliary bottom piece (A90) is attached on the rear underside of the bottom sole piece (A20).
18. The air-circulation type shock buffering footwear according to claim 12 or 16, wherein the first valve installing grove (A24) is formed in the rear of a passage (A22), the second valve installing grooves (A25) are disposed respectively on the both upper sides in the rear of the bottom sole piece (A20), said second valve installing grooves each provided with a hole (A25a) communicating with the air room (A21) and with a hole (A25b) communicating with the outside, the first check valve (A70) is fitted in the first valve installing grove (A24) and the second check valves (A80) are respectively fitted in the both second valve installing grooves (A25).
19. The air-circulation type shock buffering footwear according to claim 18, wherein the first or second check valve (A70 or A80) comprises a housing (A71 or A81) having an inlet (A71a or 81a) as well as an outlet (A71b or A81b), a shaft pin (A71c or A81c) and spouting openings (A71d or A81d); a valve plate (A72 or A82) formed with a shaft hole (A72a or A82a), the valve plate being intended to open or close the spouting openings (A71d or A81d), the shaft hole receiving a shaft pin (A71c or A81c); and a cap (A73 or A83) to be combined with the housing (A71 or A81) to prevent the valve plate (A72 or A82) from falling.
20. The air-circulation type shock buffering footwear according to claim 18, wherein a projection (A71e or A81e) for securing position is provided protrusively on one side of the outer surface of the housing (A71 or A81), and the first or second valve installing groove (A24 or A25) is formed with a projection receiving slot (A24a or A25c) to receive the projection (A71e or A81e).
Type: Application
Filed: Jun 1, 2005
Publication Date: Dec 27, 2007
Inventor: Jong-Hoe Park (Gyeonggi-Do)
Application Number: 11/596,685
International Classification: A43B 13/20 (20060101); A43B 13/38 (20060101); A43B 21/28 (20060101);