RU2193857C2 - Self-filling air cushion (versions) - Google Patents

Abstract

FIELD: shoe industry. SUBSTANCE: self-filling cushion has supporting chamber made in the form of three-dimensional body adapted for receiving fluid delivered therein and provided with slot formed in upper part of three-dimensional body and designed for accommodating high-pressure chamber, hollow collapsible high-pressure chamber of variable volume having air opening. Said chamber changes its volume when moved to collapsed position. Channel is connected between supporting chamber and high-pressure chamber. At least one pressure accumulation chamber connected between high-pressure chamber and supporting chamber is provided with inlet opening communicated with first one-way valve and with outlet opening communicated with second one-way valve. High pressure chamber is communicated with pressure accumulating chamber through first one-way valve for preventing back flow from pressure accumulating chamber to high pressure chamber. One-way valve is connected between high pressure chamber and supporting chamber for providing air flow from collapsible high pressure chamber into supporting chamber upon compression of high pressure chamber with foot. Air-cushion of such construction may be used in shoe. EFFECT: increased efficiency and simplified construction. 23 cl, 10 dwg

Description

 The invention relates to a self-filling air cushion intended for use in shoe construction, and, more particularly, to such a self-filling air cushion that includes a folding pressure chamber, a support chamber and a one-way valve connected between the pressure chamber and the support chamber to enable air supply from the folding pressure chamber to the support chamber when compressing the pressure chamber with the foot.

 A conventional shoe air bag in most cases comprises a folding three-dimensional body, which is a plurality of air cells and a plurality of channels connecting the air cells to each other, and an air valve connected to the channels and located outside relative to the sole of the shoe. When inflating the air cushion, connect the air pump to the air valve and actuating the pump to pump air into the air cells. If the internal pressure in such an air cushion is too high, it cannot be adjusted.

 US Pat. No. 5,335,382 discloses a self-filling air bag containing a support chamber, which is a three-dimensional body, designed to receive fluid injected inside it, and has a recess made in the upper part of the three-dimensional body and designed to accommodate a pressure chamber, a hollow folding chamber high pressure and the channel connected between the reference chamber and the pressure chamber. A pump connection is required to fill the support chamber.

 The technical result of the present invention is the creation of a self-filling air cushion intended for use in the construction of shoes.

 This technical result is achieved by the fact that the self-filling air cushion contains a support chamber, which is a three-dimensional body, designed to receive the fluid injected inside it, and having a recess made in the upper part of the three-dimensional body and designed to accommodate a pressure chamber, folding hollow a pressure chamber having a variable volume, a change of which occurs when the pressure chamber transitions to its folded state, channel, underflow internal between the support chamber and the pressure chamber, and at least one pressure storage chamber connected between the pressure chamber and the support chamber, having an inlet connected to the first one-way valve and an outlet connected to the second one-way valve, and the pressure chamber is in communication with the pressure storage chamber through the first one-way valve to prevent backflow from the pressure storage chamber and into the pressure chamber.

 The specified technical result is achieved by the fact that the self-filling air cushion contains a support chamber, which is a three-dimensional body surrounding an open space and configured to hold liquid, a hollow folding pressure chamber having an air hole on its upper side and a variable volume that changes during the transition pressure chambers in the folded state, the channel connected between the reference chamber and the pressure chamber, and the valve is one-way The first action installed in the channel to allow flow in one direction from the pressure chamber to the support chamber.

 The above technical result is also achieved by the fact that the self-filling air bag contains a support chamber, which is a three-dimensional body made with the possibility of holding fluid, and having a recess made in the upper part of the three-dimensional body and designed to accommodate a pressure chamber, a hollow folding chamber pressure, having a variable volume, measured when the pressure chamber transitions to a folded state, a channel connected between the support chamber and the plenum, one-way valve mounted in said passageway for allowing fluid flow in one direction from the plenum into the support chamber, and at least one pressure accumulating chamber coupled between the pressurized chamber and the reference chamber.

 Each of the self-filling air bags described above may further comprise a pressure control chamber connected between the pressure chamber and at least one pressure storage chamber and controlled to adjust the internal pressure in the support chamber. The pressure control chamber may include a control rod controlled to adjust the internal pressure in the support chamber. The pressure control chamber may be connected to at least one air distribution chamber.

 In the first and third described embodiments of a self-inflating pillow, the pressure chamber may have an air hole.

 In each of the self-filling air bags described above, the pressure chamber may be installed in an open space surrounded by a support chamber.

 In each of the self-filling air bags described above, the pressure chamber can be located outside with respect to the support chamber and removed from it by a certain distance through the specified channel.

 In each of the self-filling air cushions described above, the pressure chamber may comprise at least a one-way valve for drawing in external air into the pressure chamber.

The following is a detailed description of the invention with reference to the accompanying drawings, which depict the following:
FIG. 1 is an isometric view of a self-filling air bag according to a first embodiment of the present invention;
FIG. 2 is an isometric view of a self-filling air bag according to a second embodiment of the present invention;
FIG. 3 is a view of the present invention in its practical application, in which a self-filling air bag is shown mounted on the sole of the shoe, where it is in its working condition;
FIG. 4 is a plan view of a third embodiment of the present invention;
figa depicts a section along the line 4A-4A in figure 4;
figb - direction of rotation of the pressure chamber in the embodiment of the present invention, presented in figure 4
Fig. 4B is a pressure chamber in the embodiment of the present invention shown in Fig. 4, when it is inserted into the upper recess made in the corresponding support chamber;
4G is a section along the line 4G-4G in figure 4;
FIG. 5 is a cross-sectional view of a fourth embodiment of the present invention, showing a rod for adjusting pressure and located in a pressure adjusting chamber;
figa is a view in section along the line 5A-5A in figure 5.

 As shown in figure 1, the self-filling air bag 1 contains a support chamber 2, which is a three-dimensional body designed to receive the fluid injected inside it, and having a recess made in the upper part of the three-dimensional body and designed to accommodate a hollow folding chamber 3 high blood pressure. The recess forms an open space 4, surrounded by a support chamber 2, in which the chamber 3 is placed.

 The pressure chamber 3 has an air hole 5 and a variable volume, the change of which occurs when the chamber 3 transitions to its folded state.

 The pillow 1 also includes a pressure accumulation chamber made in the form of an air cylinder 6 connected between the pressure chamber 3 and the support chamber 2 and having an inlet connected to the first one-way valve 7 and an outlet connected to the second one-way valve 8. The pressure chamber 3 is in communication with the air cylinder 6 through the valve 7 to prevent backflow from the air cylinder 6 to the pressure chamber 3.

 A connecting pipe 9 is connected between the pressure chamber 3 and the air cylinder 6. The valve 7 allows air to pass from the pressure chamber 3 through the tube 9 and through the air cylinder 6 into the support chamber 2.

 In FIG. 2 shows a second embodiment of the present invention. According to this embodiment, the air bag 1 comprises a support chamber 2, an air cylinder 6 connected to the support chamber 2 by one side thereof, a pressure chamber 3 located at a distance from the air cylinder 6 from its side opposite to the support chamber 2. A connecting tube 9 is connected between one end of the air cylinder 6 and the pressure chamber 3. The first one-way valve 7 is installed in the air cylinder 6 and is designed to allow air from the overpressure chamber 3 to the support chamber 2. The second one-way valve 8 is installed on the other end of the air cylinder 6.

 As shown in FIG. 3, the air bag 1 is mounted inside the sole of the shoe 10 so that the pressure chamber 3 protrudes with its upper part above the upper cavity 11 of the sole 10 in the area of the heel. The cavity 11 is similar to the open space 4 in FIG. 1, when the user's foot presses on the pressure chamber 3, the chamber 3 is folded and the internal pressure created in this case in the chamber 3 is forcibly transmitted through the connecting tube 9 and the air cylinder 6 to the support chamber 2 . When the user's foot is raised above the pressure chamber 3 in the folded state, air is immediately drawn into the chamber 3 due to the difference in air pressure between the internal pressure in the chamber 3 high pressure and atmospheric pressure. When the user continuously steps on the pressure chamber 3, the support chamber 2 will be inflated to a saturation state. When the support chamber 2 is fully inflated, the overpressure chamber 3 will begin to be supported by the support chamber 2, which counteracts the effect of external pressure. In addition, using a one-way valve 8, you can adjust the pressure in the support chamber 2 to the desired level.

 As shown in FIG. 4, the air bag 1 in this embodiment further comprises a pressure adjustment chamber 13 connected between the pressure chamber 3 and the pressure storage chamber 14. The pressure chamber 3 is in communication with the pressure adjustment chamber 13 by means of the air channel 12. The pressure storage chamber 14 is communicated with the pressure adjustment chamber 13 through the single-acting valve 7 and to the support chamber 2 by the air channel 16 through the single-acting valve 15.

 Air passes through the air hole 5 into the pressure chamber 3. When the foot of the user puts pressure on the pressure chamber 3, the air hole 5 of the foot of the user is blocked, and the air in the pressure chamber 3 is forced out due to the pressure exerted by the foot of the user, flowing through the air channel 12 into the chamber 13 pressure adjustment, and then through the valve 7 single-acting in the chamber 14 of the pressure accumulation. The pressure accumulation chamber 14 is located in a place where no effect is exerted on it when the support chamber 2 or the pressure chamber 3 receives pressure exerted by the user's foot and, therefore, compressed air is able to be forced out of the pressure chamber 3 into the pressure accumulation chamber 14, and from there, through the single-acting valve 15, further to the support chamber 2 through the air channel 16.

As shown in FIGS. B, C and D, the pressure chamber 3 can be rotated backward at an angle of about 180 ^° and placed in a recess 17 made in the upper part of the support chamber 2, so that its air hole 5 is facing up .

 As shown in FIGS. 5 and 5A, in this embodiment of the pillow, a rod 18 is provided for adjusting the pressure and installed in the pressure adjusting chamber 13. This rod 18 has a longitudinal central hole 19, several annular grooves 20 and several radial through holes 21 in communication with the longitudinal central hole 19. The pressure adjustment chamber 13 is connected to the air distribution chambers 22. The annular grooves 20 and the through holes 21 are arranged so as to correspond the air distribution chambers 22, the single-acting valve 7 and the air channel 16. By turning the rod 18, the pressure in the pressure storage chamber 14 is adjusted and in the support chamber 2. When the through holes 21 are diverted from the air channel 16, the compressed air 43 of the pressure chamber 3 is prevented from entering the support chamber 2. When the air channel 16, the through holes 21 and the air distribution chambers 22 are located in such a mutual position, which they communicate with each other through a longitudinal central hole 19, it is possible to transmit air pressure to the pressure storage chamber 14 depending on the volume of the air distribution chambers 22. Assume m, that the internal volume of the pressure chamber 3 is equal to A, the internal volume of the air distribution chambers 22 is equal to B and the internal volume of the pressure chamber 3, when it is in the folded state, is equal to C, then P1V1 • P2V2 = n, the pressure in the pressure chamber 3 , after it has been compressed, is Pb = PaA / B + C, and therefore, the larger the internal volume B of the distribution chambers 21, the lower the air pressure Pb, which will be created in the pressure storage chamber 14.

 When the through holes 21 and the pressure chamber 3 are arranged so that they communicate with the air channel 23, it is possible to displace air from the pressure chamber 3 through the air channel 23 to another air circulation zone. Therefore, the air cushion 1 is also able to improve the ventilation of the air inside the shoe.

Claims (23)

 1. Self-filling air cushion containing a support chamber, which is a three-dimensional body, designed to receive the fluid injected inside it, and having a recess made in the upper part of the three-dimensional body and designed to accommodate a pressure chamber, a hollow folding pressure chamber, having an air hole and a variable volume, the change of which occurs when the pressure chamber transitions to its folded state, a channel connected between the support a chamber and a pressure chamber, and at least one pressure accumulation chamber connected between the pressure chamber and the support chamber having an inlet connected to the first one-way valve and an outlet connected to the second one-way valve, and the camera pressure is in communication with the pressure storage chamber through the first one-way valve to prevent backflow from the pressure storage chamber to the pressure chamber of pressure.  2. The self-filling air bag according to claim 1, further comprising a pressure control chamber connected between the pressure chamber and at least one pressure storage chamber and controlled to adjust the internal pressure in the support chamber.  3. The self-filling air bag according to claim 2, wherein the pressure control chamber comprises a control rod controlled to adjust the internal pressure in the support chamber.  4. The self-filling air bag according to claim 2, wherein the pressure control chamber is connected to at least one air distribution chamber.  5. The self-filling air bag according to claim 1, wherein the pressure chamber has an air hole.  6. The self-filling air bag according to claim 1, wherein the pressure chamber is installed in an open space surrounded by a support chamber.  7. The self-filling air bag according to claim 1, wherein the pressure chamber is located outside the support chamber at a distance from it defined by the channel.  8. The self-filling air bag according to claim 1, wherein the pressure chamber comprises at least a one-way valve for suctioning outside air into the pressure chamber.  9. A self-filling air bag containing a support chamber, which is a three-dimensional body surrounding an open space and configured to hold liquid, a hollow folding pressure chamber, having an air hole on its upper side and a variable volume that changes when the pressure chamber transitions to a folded a condition, a channel connected between the support chamber and the pressure chamber, and a one-way valve installed in the channel to provide possible flow in one direction from the plenum into the support chamber.  10. The self-filling air bag according to claim 9, wherein the pressure chamber is installed in an open space surrounded by a support chamber.  11. The self-filling air bag according to claim 9, in which the pressure chamber is located outside with respect to the open space and is at a certain distance from the support chamber.  12. The self-filling air bag according to claim 9, further comprising a discharge valve installed in said channel and controlled to release pressure in the support chamber.  13. The self-filling air bag according to claim 9, further comprising a pressure control chamber connected between the pressure chamber and the support chamber and controlled to adjust the internal pressure in the support chamber.  14. The self-filling air bag according to claim 13, wherein the pressure control chamber comprises a control rod controlled to adjust the internal pressure in the support chamber.  15. The self-filling air bag according to claim 13, wherein the pressure control chamber is connected to at least one air distribution chamber.  16. Self-filling air cushion containing a support chamber, which is a three-dimensional body made with the possibility of holding fluid, and having a recess made in the upper part of the three-dimensional body and designed to accommodate a pressure chamber, a hollow folding pressure chamber having a variable volume , changing when the pressure chamber transitions to the folded state, the channel connected between the reference chamber and the pressure chamber, the valve is one-way of actions established in the channel to allow fluid flow in one direction from the plenum chamber into the support, and at least one pressure accumulation chamber connected between the pressurized chamber and the reference chamber.  17. The self-filling air bag according to claim 16, further comprising a pressure control chamber connected between the pressure chamber and at least one pressure storage chamber and controlled to adjust the internal pressure in the support chamber.  18. The self-filling air bag according to claim 17, wherein the pressure control chamber comprises a control rod controlled to adjust the internal pressure in the support chamber.  19. The self-filling air bag according to claim 17, wherein the pressure control chamber is connected to at least one air distribution chamber.  20. The self-filling air bag according to claim 16, wherein the pressure chamber has an air hole.  21. The self-filling air bag according to claim 16, wherein the pressure chamber is installed in an open space surrounded by a support chamber.  22. The self-filling air bag according to claim 16, in which the pressure chamber is located outside with respect to the support chamber and is removed from it by a certain distance through the specified channel.  23. The self-filling air bag according to claim 16, wherein the pressure chamber comprises at least a one-way valve for drawing in external air into the pressure chamber.

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