JPS628702A - Shoes with heater and said heater - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

Detailed Description of the Invention: ■The object to be pressed is pushed down (pressed) by the pushing down action of a lever that has a fulcrum along with the bending action, but even after the pushing down action is finished (even if the pushing action has stopped), there is still no driving force. The bending action that tries to push down the lever of the barrel continues to move with the same action (with the same speed and force) ■ The object being pressed is pushed down by the pushing action of the lever that accompanies the bending action of the bulge of the foot, but that pushing action The shoe according to claim 1, claim 2, or claim 3, characterized in that the lever of the bending action continues to move with the same action even after the bending action has been completed.

The air pump installed in the heel is activated, and the inside of the shoe is
This invention relates to a shoe with an air pump configured to send fresh air from the outside into the shoes, and to send warm air into the shoe during the cold season, and a device thereof.

(b) When you wear shoes, there is no ventilation inside the shoes, so especially in the summer, hot air gets trapped, your feet sweat and get stuffy, and the rotting sweat gives off a bad odor, making it unclean and causing skin diseases such as athlete's foot. However, when sitting with other people, there is nothing more unpleasant than that peculiar odor of socks and feet.

υ) Therefore, in order to measure the ventilation inside the shoe, various innovations have been made, such as shoe uppers with woven strings, shoe uppers with a net shape, and shoes with holes punched in the upper. However, all of these shoes are not only meant for the summer season, but also cannot be worn in rainy weather, causing dust to enter the inside of the shoes, resulting in unsanitary conditions, and the ventilation inside the shoes is completely poor. It was something. In addition, a cushioning material or air bag body is provided between the insole or the insole and the outsole of the shoe, and when the weight is applied, the elastic body is compressed and exhausted, and when the weight is not applied,
It seems that ventilation devices have been devised, such as by using elastic bodies to restore air intake, but all of these require thick soles and are not effective in providing sufficient ventilation inside the shoe. do not have. In addition, when walking, the sole of the shoe, once in contact with the ground, is further compressed by weight, causing the sole to press down on the ground in two stages, giving the user an uncomfortable feeling as if he or she is walking on a sponge. All footwear loses its sense of stability when the sole of the foot touches the ground unless the sole of the foot firmly grips the ground. It goes without saying that the reason why hard materials are widely used in footwear with rubber soles or sponge soles is to provide a sense of stability when walking and running.

When people walk and run, the roots and bulges of their toes always bend, and it goes without saying that all footwear is made with this in mind. Therefore, the inventor tried walking by placing an iron plate on the sole of the shoe to prevent the bulge from bending, but he was unable to walk on it.

Therefore, the present invention has been devised to capture the fact that the bulges of the feet are always bent when a person walks and run, and to operate the air pump by utilizing the function of the bulges, resulting in the present invention.

■Therefore, the structure and configuration of the claims in general will be explained with reference to the drawings, but all of the drawings are shown with the left axis as the subject, and the screw holes, etc., which are provided on the left and right sides, are shown on the outside. The part corresponding to the bulge at the base of the finger will be referred to as the "bent part".

0) The lever plate 10 and the angle stay 11 shown in FIG.
1 is U-shaped and has a slide plate 12 inside it.
, the leaf spring 13, the intermediate washer plate 14, and the connector spring assembly are stacked in this order, and the screws 21 are passed through two screw holes in each, and the screws 21 are screwed into the holes 22.

Place lever 4 receives the lower protrusion of adjustment screw n through hole 28C.
The pawl groove 28A is fixed to the support pawl of the slide lever 19, and the slide lever is screwed into the screw hole trap B using the tightening screw. A presser shaft with a presser roller 31 fitted thereon is inserted, bushing rollers 32 are inserted on both sides of the shaft, a switch presser roller 35 is inserted on one side, and washer blades are fixed with snap rings 34 at both ends. Then, presser roller 3
1 is in contact with the oil pump press plate 39 at the tip of the connector spring 15, and the bush roller 32 is pushing against the back surface 41B of the guard pin 41.

The connector spring 15 has a bearing with a shaft holder inserted into the hole 38, and is fixed in a tensioned state to the shaft stopper hole 9C of the installation plate 9, and its tip is an oil pump holding plate 39. The oil pump contact plate cutter is attached to the bottom.

The slide lever 19 has a sloped slide seat 19A whose tip end is cut at 40 degrees, and is inserted tightly into the sloped slide seat 12A of the slide plate P, and the plane slide seat 19C is tightly connected to the slide pillow 11A. and,
A place lever 28 is fixed to the lower surface and placed on top of the connector spring, and the upper surface of the press lever is held down by a roller shaft 47 fitted with a support roller 48 and fixed in the stop hole 9B. One end of the slide lever is held under tension by a U-shaped spring 18 which passes under both ends of the roller shaft and is fixed in the stopper hole 9A.

The weak guard shaft has a gear pipe in the center, a torsion coil spring 42 and a guard pin 41 fitted to both ends of the guard shaft, which are fixed in the fixing hole 9E of the installation plate and fixed with snap rings at both ends, and the tip 42B of the coil spring is The spring receiver of the guard pin is attached to the hole 41C, and one side is attached to the spring retaining hole 9H of the installation plate, and the guard pin is pressed down.

As mentioned above, the flat slide seat 19C of the slide lever is in close contact with the slide pillow 11A of the angle stay, and the space 11D inside thereof is filled with grease and fixed with the boot 17. Big thing 1
A slide lever is inserted into 7B, and a connector spring is inserted into 17C.

(The slide pillow 11A may be replaced with a pillow with rollers.) (B) The fixing plate 51 at the bottom of the toe is a lever between it and the lower fixing plate cut to match the planar size of the angle stay 11. A midsole 3 cut according to the planar size and thickness of 10 is held in between, and the periphery thereof is riveted 52.

That is, a hole is provided between the upper and lower fixed plates into which the lever plate 10 to which the angle stay is riveted is inserted, and exhaust jets extending from the main sole are provided on the left and right sides of the fixed plate and at the tip of the midsole 3. .

e9 The midsole 3 and the outsole 4 have a notch in the center to fit the bending device, but in order to reinforce the notch and the grounded sole, a group of reinforcing pins in the shape of a spool are driven into the bottom of the outsole. Behind that, a fixing plate 78 of the installation plate is attached to both ends of the bottom of the sole for reinforcement, and the fixing plate has a nut 81, a fixing claw part, an L-shaped flange 79, and a pedometer plate. A microswitch 82 is provided.

B) The space between the oil pump holding plate 39 and the bottom of the installation plate is tapered, and an oil pump hole made of polyethylene synthetic resin is provided between the oil pump holding plate 39 and the bottom of the installation plate.
An oil hose ω is inserted into the pump, and a weak coil spring 57 is fitted into the insertion part so that the pump is constantly in close contact with the holding plate.One end of the steam rubber hose is connected to the oil cylinder 61, and the inside of the cylinder is connected to the oil hose ω. A bushing rod 69 is screwed into the center of the piston and a return coil spring 72 is installed on the top thereof, and a bushing rod 69 is screwed into the center and fixed with a nut. The oil in the cylinder is filled with mustard oil and alcohol to speed up the operation of the pump.

(e) The opening frame 5 is made of hard synthetic resin, and the stay 111 that reinforces the opening frame and fixes the oil cylinder 61 etc. is fixed around the edge part, but the lower side 111C of the stay
In order to add thickness to the edge of the heel sole rubber 145, it is cut into an inclined shape along with the open frame, and a round hole is provided in the center to fix the oil cylinder 61, and the back of the hole is provided with a round hole for fixing the rocker arm shaft 95. Fix both ends, and connect the rocker arm spring to pin 1 on the air reservoir side of both ends.
22 is screwed onto the shaft, a rocker arm 92 is pivotally attached to the shaft, a shaft 93 is fixed to the rocker arm for hooking the arm spring, and a rocker arm tension spring 94 is fixed between the hook and the pin.
The shaft 95 of the rocker arm is double reinforced, and the transfer surface of the tip ball 70 of the oil cylinder bushing rod is cut out in a concave shape. At the four inner corners of the open frame, gourds 119 that support the flanges 118 of the upper plate 89 of the air pump are attached so that the air pump can be inserted from the bottom of the open frame and stopped.
At both ends of the stay 111 and at both ends of the front part of the open frame, screw holes 113 and 120 are provided for screwing the upper plate 110 of the open frame.
However, a screw hole 114 for screwing the lower plate 144 is provided, and the stay 111A portion is provided slightly lower than the open frame and serves as a contact surface 112 for intake air from the threaded pipe 115. The part that is provided with is a wide air pocket for intake.

An air pump group is incorporated inside the open frame, and the tip of the rocker arm 92 is loosely fitted with a pin into a U-shaped shackle 91 provided at the center of the air pump's lower plate blade. An intake check valve 101 and an exhaust check valve 9 are installed on the upper plate.
7. is fixed to the intake valve body, a valve stopper 105 is provided on the support gourd, and a stop claw 117 for stopping the function of the air pump is fixed to the rod 116 at the upper part, and is fixed to the outer tip of the rod. stop knob 1
The air pump function is configured to be stopped when 74 is tilted backwards. Further, a rubber ring packing 107 for preventing exhaust leakage is fitted into the exhaust valve body, and is tightly attached to a hole 127 in the open frame upper plate.

(f) The open frame upper plate 110 (Fig. 15) has holes for inserting both check valve bodies and an oil cylinder, a heel key part, and a threaded pipe 1 screwed into the lower part of the moon-shaped core part.
15 insertion holes 130 are provided, and from the insertion holes, a ventilation groove 131 for smooth ventilation to the intake valve and a fitting groove 132 for the stop rod 116 are provided. A rubber ring packing 108 is fixed to the cylinder to prevent air from leaking into the open frame.

Also, on the lower side of the heel of the outsole (Fig. 16), there are recessed holes for the heads of both check valves, a hole 137 for inserting the oil cylinder, an insertion hole 77 for the threaded pipe 115, and screw holes 8 and 66. The recessed hole into which the head of the exhaust valve fits is the opening/closing chamber 109 of the exhaust valve, and from the opening/closing chamber three exhaust hoses are glued to the cutout grooves on the bottom.
The tips thereof are fixed to the tips of the inner sole and to the left and right sides of the upper fixing plate 51 by eyelets 53A.

Incidentally, since the rubber ring packing 108 is fixed to the upper plate, the hole into which the oil cylinder is inserted is made slightly wider than the hole in the upper plate.

(g) For the heel part, first insert the threaded pipe 115 into the threaded pipe hole 130 of the upper plate in the outsole, screw it into the lower hole of the moon-shaped core part, and attach the open frame to the upper plate. , incorporate an air pump, screw the lower plate 144 into the screw holes 114 and 126 of the open frame, and place the heel sole rubber 1 under it.
45 is heavily attached, but the lower plate is bent to match the sloped cut surface of the edge of the open frame, and the heel sole rubber is provided with a thicker edge of the heel.

Also, from the inside of the heel, there is an oil cylinder insertion hole 13.
7, and place the shank plate 180 shown in Fig. 7 on top of it, and screw the screw holes 177 and 178 of the shank plate into the tightening screw holes 113 and 120 in the open frame with screws. is supported with its bottom surface in close contact with the shank plate.

The outsole, upper plate, open frame, lower plate, and ground sole are all attached together, all of which are screwed together using adhesive.

On the other hand, for the bent part, first, the lever plate 10 at the tip of the bent part configured as shown in FIG. 11 is inserted into the hole.
Insert the shank plate into the L-shaped flange blade from above the installation plate, and insert the shank plate into the screw hole 179 of the shank plate.
It is screwed onto a blank screw nut 81 with a screw, and a bottom is laid on top of it.

Note that the fixing plate and the shank plate are provided obliquely rather than at right angles to the bending portion device depending on the shape of the sole of the foot.

(b) In general shoes, a hard core such as a moon-shaped leather is inserted between the upper and the lining to prevent the heel key (Achilles key) from bending, but the shoes of the present invention A synthetic resin-based moon-shaped core M is inserted into the moon-shaped core, and the moon-shaped part tapers from the bottom to the top, just like regular shoes. 22, the side shown in Figure 24) slopes upward from the front edge of the moon-shaped core to the sewn part of the upper rubber 8, which remains thin, and there is an intake passage band in the thicker part of the moon-shaped core. 14
0, and an intake passage band hose 141 is provided in the middle of the oblique upper core 54A following the intake passage band. Ten screw holes 6 are provided in the lower part of the intake passage band into which intake threaded pipes are screwed, the upper end of the slanted upper core is sewn to the sewn part of the instep rubber, and the hose is attached to the intake port body 138. It is inserted.

ω) A filter 170 is inserted inside the intake port body 1138 (and two warmer insertion/removal grooves 163 are provided on the outside, upper and lower), the warmer body is inserted, and the warmer body is inserted under the warmer body (above the instep rubber).
A velvet cloth 8A is placed on top of the shoehorn 2 to prevent the heat from dissipating, and 14 ribs of velvet cloth are sewn to the underside of the shoehorn 2 at the top. The warmer body consists of a cap 150 provided with an intake hole 159, a crater body case 155, and an oil body (mostly hinged);
It is designed to be fastened with 60A 1161A.

Therefore, when igniting, the warmer body is pulled out from the insertion/removal groove and the cap is bent, and when lubricating, the tinder body case is further bent.

However, as shown in Figure 26 1 IA and 1 2A,
To install the warmer, connect the body warmer insertion/removal groove 163 to the screw shaft hole 16.
At 3A, attach/remove the cap 165 to the screw shaft fixing hole 165.
By using a structure in which screws are used instead of A and providing a concave notch 162 and a convex notch 162A, it is possible to bend each part and ignite and lubricate without inserting or removing the warmer body.

By the way, although a catalyst is used for the ignition body, the catalyst case 168 is cylindrical and has a shaft pin 173 and a thumb nut 1.
The base of the cylindrical crater 72 is axially mounted on the crater body case 155, and the cylindrical crater part is cut out into a rectangular shape at two opposing places, and the oil tank injection port 167 is also made into a vertical round recess and is tightly attached to the catalyst case. Therefore, the fire is extinguished by pinching and turning the thumb nut and laying the crater part of the catalyst case sideways, and the oil filler port of the oil tank is also sealed by the wall part 169A of the catalyst case to prevent oil from evaporating.

■For the sole, in order to prevent dents in the fitting part of the bent part and maintain the plane with the shank plate, a soft synthetic resin board 212 is fixed horizontally to the lower part of the bent part, and the toe part that hits the outlet of the exhaust bow Cut out the forked part and the melon tip part and make a wire cross board 209.
and 210 are fixed.

(3) Next, we will explain the structure and composition of the device that operates the air pump using wires and cables. Place the connector spring 15 on the long yoke yoke shown in Figure 181, remove the presser plate 39 at the tip of the connector spring 15, and attach the guard shaft to the connector spring 184, which has a convex guard in the middle.

The shaft 186, the press roller 31 is replaced with a thin baby roller 183, and the installation plate 9 is replaced with an installation plate 187 without the spring receiver 9I and with a U-shaped flange 193. Then, fit the elbow shaft 188 into the shaft hole 192 of the elbow pulling arm, insert it into the shaft stopper hole 194 of the installation plate, and then
83 fitted into the presser shaft 36 with the elbow presser arm 190
The bearing of the place lever is inserted into the hole 182 through the hole 182, and the other bent portions are constructed in the same manner as in the oil pump system.

Q) Next, pull the tip of the wire 19'7 into the elbow arm 189.
The cable 196 is passed through the wire fixing hole 191 and fixed to the ball, and the tip of the cable 196 is held down by a presser cap and screwed 195 to the bottom of the U-shaped flange of the installation board. The heel part has a rectangular notch up to the outsole, and a patch 125 is attached to the top of the notch to prevent air from entering during intake.

(/9 The reinforcing stay of the heel frame 5 is slightly different from the stay of the oil pump type. A stay 207 with a straight notch cut out in the oil cylinder fixing hole is fixed, and the air pump is operated and the rocker arm 200 is connected to the wire. A cable support 20 is provided with an arm part 198, the tip of one wire is fixed to a ball 202 in the wire fixing hole 205 at the top end, and one end of the cable is screwed to both ends of the stay 207A.
Press the top of 3 with the presser cap 204 and screw it! However, the shaft 199 is fixed to a slightly central portion of the stay 207A.

The above is the heel part that is different from the oil pump type, and the rest is the same as the oil pump type.

■In addition, a pedometer can be installed in the air pump shoes of the present invention, and in one embodiment, first, the shoehorn is attached to a support member 211 between the upper part of the shoe and the lining. It is equipped with a digital display 146 and a socket 2 in which a micro battery is inserted.
15. The clear off switch 147 is fixed to the notched surface 214B of the support body cut out together with the upper skin, and the digital display board 14 is fixed.
On top of 6A, a transparent vinyl plate or the like is pasted between the upper and the support as a protection body.

Ru.

The circuit of the pedometer is as shown in Figure C, but the microswitch 82 is provided at the corner of the fixed plate 78 of the installation plate, and when walking, it is inserted into the shaft 36.7atJ at the tip of the place lever 28 (181). The presser foot/roller 35 presses the switch pressing spring 49, which is fixed with a screw on the side of the installation board 9 (187), and the switch button 82A is pressed at the tip of the spring 49, which is connected to the digital device via the power transmission cord 83. The count is displayed on the display board.

(5) Next, the functions, effects, etc. of the shoes of the present invention will be explained.

C) When the bending action of the bulge occurs during walking, the greatest force is applied to the slide part, so the slide part is equipped with a U-shaped angle stay, but a leaf spring 13 is installed under the slide plate. When the slide portion is bent, the plate spring is pressed against the concave surface of the intermediate washer plate 14 to provide resistance to the slide lever while sliding.

(b) After the bending action of the bulge ends, the place lever raises the foot from the ground, or when the entire sole is in contact with the ground, the restoring force of the sole itself and the U-shaped spring 18
However, in the case of an oil pump system, the return coil spring 72 provided at the top of the cylinder piston is also restored by the restoring force of the oil pump.

(C) Also, when leather shoes are used for a long time, the tips of the shoes may naturally curve from the bending part into an arched shape, but in the case of the shoes of the present invention, the restoring force of the place lever allows the front of the sole to bend. Since the section is constantly under tension downward, it does not seem to bend naturally. However, if bending occurs, loosen the slide lever's tightening screw 5 and turn the screw adjustment screw n to the left. This will shorten the distance between the slide lever and the place lever, and the lever plate 10 of the slide will face upward. Therefore, it can be adjusted accordingly.

2) In general shoes, a moon-shaped leather or the like is sandwiched in the heel, the edges of the upper and lining are bent inward and glued to the midsole, and the nails are reinforced with etc., but the shoes of the present invention For the case with nails, instead of reinforcement, threaded pipes 115 that also serve as intake pipes are screwed into 10 screw holes provided in the moon-shaped core from the upper plate of the open frame, and the open frame is also made of hard synthetic resin. The upper plate 110 and lower plate 144 are reinforced with stays and form a large drum-like shape, making the heel part stronger than that of ordinary shoes.

(E) Also, among the materials used in the construction of the present invention, the slide lever, slide washer, lever plate, angle stay, place lever, spring, shaft, rocker arm, elbow arm, etc. are all made of sturdy suchta material. However, other shoes are made of lightweight synthetic resin material, making them much lighter than shoes made entirely of leather up to the heel or sports-related shoes.

(f) The shoe of the present invention has a main sole and a ground sole constructed separately to save labor, but in reality, the main sole is made a little thicker, and the fitting part of the bent part etc. is cut out and the fixing plate 78 etc. It is sufficient to embed it in the split bottom, and the upper plate 110 of the heel portion can also be made stronger if it is integrated with the opening frame and formed into a container shape.

(g) In this drawing, the installation board at the bent part is enlarged and shown thick, but the actual thickness is 8 mm.
A sufficient bending portion can be constructed within the thickness range of the midsole and outsole of conventional shoes.

Furthermore, the device of the present invention can be applied to all types of shoes as long as they have a thick heel, and when attached to boots etc., the hose is raised directly from the moon-shaped core of the heel and the air intake is placed around the foot socket. All you have to do is provide a body warmer.

Furthermore, the bending action lowering device of the present invention can also be applied to other mechanical fields.

Furthermore, when the shoe of the present invention is not using a warming body warmer, the structure can be changed to one in which gas inside the shoe is discharged to the outside by attaching both check valves in reverse.

Q: The shoes of the present invention use the bending action of the swollen part of the foot when walking, and in the case of an oil pump system, the oil pump inserted into the lower surface of the presser plate blade is pressed down by a place lever, and the pressure is applied to the piston in the cylinder. The bushing rod screwed onto the piston operates the rocker arm, and the rocker arm operates the air pump to perform the intake action.In addition, in the case of the wire method, the place lever holds the elbow holding arm and the elbow pulling arm The wire is pulled, the rocker arm pull arm operates the rocker arm, and the intake action is performed.

On the other hand, the exhaust action is performed by lifting the rocker arm's tension spring 9 while the foot is raised from the ground or the entire sole of the shoe is on the ground.
The restoring force of 4 shrinks the bellows of the air pump and exhausts the air to the exhaust valve.

2) The place lever, slide lever, and lever plate of the bending part of the shoe of the present invention are, so to speak, a single lever, and when the bending action works, a part of the place lever levers around the support roller capital as a fulcrum. This means that the object under pressure is pushed down, and then the slide portion bends.

By the way, if a bending action is applied to the bent portion, the bending action will naturally also be applied using the slide pillow 11A of the sliding portion at the tip of the slide lever as a fulcrum.

However, since the sloped slide seat at the tip of the slide lever is in close contact with the sloped slide seat on the slide plate, when a bending action is applied, the slide part tries to slide and a force is applied that tries to push the slide lever backward. be. However, since the bushing roller 32, which is provided at the tip of the place lever fixed to the slide lever, stretches the upper part of the guard pin from the guard shaft position of the roller seat 41B, even if a bending action is applied to the slide part, the bushing roller 32, which is provided at the tip of the place lever, cannot be used as a fulcrum. It cannot be bent. However, when the place lever is pushed down and the bushing roller is lowered below the parallel line position of the guard shaft, the guard pin pivots on the shaft due to the tension force of the place lever. Since it becomes balanced and loses its resistance, the place lever is pushed backward by the pushing force of the slide section. However, at that time, the slide portion naturally slides and is bent. That is, when a bending action is applied to the bending portion, the sliding portion cannot be bent unless the place lever with the support roller as a fulcrum is pressed down.

QO By the way, the force with which the place lever presses down the presser arm of the oil pump or elbow that is the object under pressure (resilient force of the object under pressure) and the force that is applied when the slide section slides and the place lever protrudes rearward after the end of the pressing stroke. (Resistance)
must be equal. In other words, when bending the object under pressure, it is heavy (5 kg of force is required), but when the slide part is bent afterwards, it suddenly becomes lighter (bending with 2 kg of force). However, this is due to the strength of the pressing force of the torsion coil spring that presses down the guard pin 41 and the strength of the leaf spring 13 at the bent part, depending on the strength of the elastic force of the object under pressure. This can be adjusted.

Furthermore, when walking while wearing shoes, the place lever can sufficiently press down the object under pressure by bending the heel only about 5.6 cm from the ground while keeping the tip of the bulge in contact with the ground. Therefore, the remaining difference in elevation will be compensated for by the bending of the slide part, but how much the object to be pressed is to be pushed down and how much to stop the pushing action is determined by the shaft stopper hole 9E that fixes the guard shaft. It can be adjusted depending on the vertical position.

When walking and running while wearing shoes, the force applied to the bending part is enormous, and the bending part is bent with just the force needed to support the body weight.

By the way, when walking, the time for the bending part to bend is about 0.4
In the case of driving, it is about 0.2 seconds, which is an instantaneous time. Therefore, in the case of these shoes, the place lever must also rapidly press down on the object under pressure, and the rocker arm of the air pump must also rapidly pull down the lower plate of the air pump to draw air into the pump.

However, in the process of exhaust action, 10 threaded pipes 11
Since the intake action has already taken place inside the open frame from 5, and the check valve is also extra large, there is no air resistance even in the sudden intake action into the air pump.

a) Since the shoes of the present invention are equipped with the maximum number of air pumps, it is possible to eject gas with a volume of about 5 liters into the sole of the shoe for every 100 steps. By the way, when you walk and run while wearing the shoes of the present invention, a large amount of fresh air from the outside is blown out to the toes and toes that are most likely to sweat and get stuffy, so your feet won't sweat and get stuffy even in the summer. It does not emit a bad odor and is useful in preventing skin diseases such as athlete's foot. In addition, as the saying goes, ``If the toes are not warm, the body will not be warm,'' and the toes are the most sensitive part to cold and heat, but during cold or humid seasons, warm, dry air can be pumped into the toes. be.

In addition, the ventilation effect of these shoes occurs not when the foot is stepping on the ground, but when the foot is lifted off the ground and there is a gap between the sole and the sole, so the sole of the foot is ventilated. It is fully done.

In addition, if ventilation inside the shoe is not necessary, the air pump function can be stopped by tilting the stop knob located on the side of the heel backwards.

As explained above, the inventor has arrived at the present invention in order to satisfy the desire of how to solve the conventional drawbacks and obtain a perfect shoe with breathability.

[Brief explanation of the drawing]

FIG. 1 is a plan view of the sole of a shoe taken along the line 11-11 in FIG. , and an exploded view of Fig. 11. Fig. 3 is a plan view of the oil pump section of Fig. 1. Fig. 4 is a side view of the oil pump. Figs. 5 and 6 are cross sections showing the operating state of the oil cylinder. Fig. 7 is a plan view of the shank plate. Fig. 8 is a plan view of Fig. 1 with the bent part and oil pump section removed. Fig. 9 is a partially cutaway perspective view of Fig. 8. Fig. 10 is a plan view of the shank plate. A rear perspective view of Fig. 8. Fig. 11 is a side view of the bent part. A of Fig. n is a side view showing the state when the entire sole is on the ground or raised from the ground.
B of the figure is a perspective view of the upper plate in state A, with a partially cutaway side of the bent portion being open. FIG. 16 is a perspective view of the sole of the heel seen from the bottom. FIG. 17 is a plan view of the heel portion. FIG. 18 is a bottom view of the heel portion. Figure 19 is an operational sectional view showing the exhaust state of the heel portion. FIG. 20 is an operational sectional view showing the intake state of the heel portion. FIG. 21 is a sectional view taken along the line 11-11 in FIG. 17. FIG. 22 is a side view of the carapace with a portion of the carapace cut away and the moon-shaped core section cut away. FIG. 5 is a side perspective view in which a portion of the outer surface is cut out to the lining and the moon-shaped core is cut out to the bottom surface along line A-A in FIG. 4. The third figure is a side perspective view of the moon-shaped core and the obliquely upper core. FIG. 25 is a plan perspective view showing an embodiment when a warmer is inserted. Figure 5 is an exploded view of the warmer body, where 1 is the intake port and the body warmer is attached. 1 and 2 are the warmer caps, and 1 and 3 are the crater case. 1-4 is a plan view of the oil tank. The 2nd digit is the front view, and the 3rd digit is the right side view. However, 3 and 4 are left side views, and 4 digits are rear views. 5 is a plan view of the catalyst case, and 1 IA and 1 2A are plan views of the intake port/warmer body and the body warmer cap showing other embodiments of the mounting method. Figure n is a front view of a switch section that stops the operation of the air pump. Figure n is a rear view of the heel. FIG. 4 is an enlarged cross-sectional view taken along section line 11-11 in FIGS. 1 and A. FIG. 30 is a plan view of the sole of the shoe according to claim 1, taken along line 11--11 in FIG. 22, showing another embodiment of the shoe. FIG. 31 is an exploded view of parts of the apparatus shown in FIG. 30 that are different from those shown in FIG. 2. FIG. 32 is a plan view of the heel portion of the device shown in FIG. 9 with the air pump removed. Figure 32 is cut along line 11-11 in Figure 32.
A sectional view showing an operating state when an air pump is incorporated. Figures A and 35 [uA are the bent parts of the device shown in Figure 4; A side view showing an operating state. Figure n is a plan view of the sole. Figure A is a bottom view of the sole. FIG. 39 shows an embodiment of a pedometer attached to a shoe, and is a cross-sectional plan view of a shoe with a band and a tongue removed. The weak diagram is a sectional view taken along the line 11-11 in FIG. 39. 1=Upper leather, lA=Upper leather heel pad, 2=Shoe tongue, 3=Insole,
3A=Insole notch, 4=Outsole, 4A=Outsole notch, 5=
Heel frame, 6=ground sole, 7=lining, 8=rubber instep, 8A=velvet cloth, 9=installation board, 9A=spring hole, 9B
= Roller shaft threaded hole, 9C = Connector spring shaft stopper hole, 9D = Guard bin stopper, 9E = Guard shaft stopper hole, 9F = Support, 9G = Threaded hole, 9H, = Spring set hole 9I = Spring retainer Board, 9J=screw hole, 10=lever plate 10A=screw hole, 10B=rivet hole, 10C=boot holder 11=ann, glue stay, 11A=slide pillow, 1
1B; Rivet hole, 11C = Guard frame, 11D = Grease receiver, Sea slide plate, 12A = Slide seat, 12B
= Rounded tip, 13 = Leaf spring, 14; Intermediate washer plate, 14
A17C=spring hole, 18=U-shaped spring,
19=Slide lever, 19A=Slope slide seat, 19
C = Plane sliding seat, 20 = Rivet, 21 = Screw with screw, 22 = L, Female screw hole, O = Support work, Sae = Rivet caulking, 5 = Tightening screw, % = Screw hole, I = Varnish free Setting screw, 27A = screw head, Arplace lever, 2
8A=Melon groove, 28B=L/Female screw hole 28C=Adjustment screw receiver is a hole, 4-rivet caulking, Cover 30=Fork bearing is a hole, 31=Press roller, 32=Push roller, 33=
Washer, 34 = Snap spring, A = Switch holding roller, I = Holding shaft, 37 = Lower contact surface of place lever, Seki = Bearing is hole, (= Oil pump holding plate, Off = Pump contact plate, 41 = Guard pin, 41A = Shaft hole, 41B = Roller seat, 41C = Spring holder is hole, C = Torsion coil spring, Insert = Gap pipe, 蝬 = Guard shaft, Onisnap ring, Tochi = Connector spring.
Shaft, 47 = support roller shaft, 瑽 = support roller, = switch press spring, father = spring set screw, 51 = upper fixing plate, 52 = rivet caulking, O = air jet white, 53A = injection port eyelet, Nu = Exhaust hose, Part = Reinforcement pin, I = Ni Oil pump 56A = Hose mounting port,
57=coil spring, imperial=joint pipe, 59=L, fitting is band, ω=ni oil hose 61=oil cylinder,
62=Joint pipe, 62A=Threaded recess 8=Heel screw hole, Clasp=Moon-shaped core, 64A=Slanted upper core (outside part of moon-shaped core), 64
B = Inside part of moon-shaped core, 5 = Threaded pipe hole, Field = Screw hole, U = Nioil-filled Robu plug, 67A = Thread, Field = Piston, 69 = Bush rod, 70 = Roller ball,
71=Cylinder cap, 71A=Air hole, 72
= Return coil spring, 73 = Rod thread, 74 = Piston tightening is nut, No = Cylinder chamber, 76 = Cap thread, τ = Threaded pipe hole, 78 = Installation plate fixing plate, 79 = L-shaped flange, 80 = installation board fixing melon, 81 = installation board tightening nut, wing = micro switch, 82A = switch push button, field = power transmission cord, tear = lower fixing plate, secret = insertion hole of insertion board, 86 = air pump chamber , 87 = air pump, vane = air pump lower plate, 89 = air pump upper plate, (a) = bellows, 91 = arm shackle, 9
2 = Air pump rocker arm, 93 = Spring hook is shaft, Sound = Rocker arm tension spring, 95 = Rocker arm shaft, % = Rashakuru pin, 97 = Exhaust check valve, 9
8=valve seat, weak=exhaust valve, 1oO=valve support melon 10
1=Intake check valve, 102=Valve seat, 10
3=Intake valve, 104=Valve support melon, 105=Valve stopper, 106=Stop rod hole, 107=Rubber ring seal, 108=Oil pump rubber ring seal, 109=
Exhaust valve opening/closing chamber, 110 = heel frame upper plate, 1
11=Heel frame reinforcement stay, 111A=low side of stay, 1
11B = Upper plate mounting is surface, llIC = Stay lower slope, 111D = Lower plate mounting is surface, 112
= Intake surface, 113 = Upper tightening screw hole, 1
14=Lower plate tightening screw hole, 115=Intake thread pipe, 116=Stop rod, 117=Stop claw, 118=Air pump support flange, 119=Air pump support melon, 120=Upper tightening screw hole, 1
21 = air pump gap, 122 = spring hook pin, 123 = oil cylinder fixing hole, 124 = air reservoir pocket, leak = intake leak prevention patch, 126 = lower plate tightening screw hole, 127 = exhaust valve difference, Hole, hole = intake valve insertion hole, hole = oil cylinder insertion hole, 130 = threaded pipe hole, 131 = ventilation groove 1
32 = Stop rod groove, 133 = Heel screw hole, 134
= Exhaust hose 1A135 = Screw hole, 136 = Intake valve head hole, 137 = Oil cylinder insertion hole, 138
= Intake port and warmer attachment on body, 139 = Intake hose lower attachment in mouth, 140 = Intake passage band, 141 = Intake hose, 142 = = Shoe tongue lining fabric, 143 = Shoe band, 143
A=Shoe band notch, 144=Heel frame lower brake), 1
45 = Heel sole rubber, 146 = Digital device body, 146A
= Digital display board d46B = Display board pole 147 = Clear off switch, 147 A = Clear off key, 147
B = switch point, 147C = return spring,
148 = Eyelet ring 0.148A = Clear off key insertion hole, 149 = Convex hook, 149 A = Concave hook, 150 = Warmer cap, 151 = Warmer oil tank, 152 = Hinge arm, 153 = Pin hole, 154 = Hinge arm , 155=tinder body case, 156=hole, 157=ignition port, 158=cap stopper, 159=intake hole, 16
o = concave notch, 16oA; convex notch, 161 = concave notch, 161 A = convex notch, 162 = concave notch, 16
2 A = Convex notch, 163 = Warmer insertion/removal groove, 163
A = Screw shaft hole, 164 = Sewing hole, 165 =
Warmer insertion/removal melon, 165A = screw shaft fixing hole, 166 = hinge bin, 167 = oil inlet, 168 = catalyst case, 16
9=catalyst (ignition port), 169A=catalyst case wall, 17
0 = Intake filter, 171 = Ignition check plate, 17
2 = Fire extinguisher thumb nut, 173 = Catalyst case shaft pin, 17
4 = Air pump stop knob, 175 = Stop knob concave seat, 176 = Rubber ring seal, 177 = Screw hole on heel, 178 = Screw hole, 179 = Screw hole on installation plate, 180 = Shank plate, 181 = Wire type place lever, 182=prong bearing is hole, 182A=prong bearing is yoke, 1&3=baby roller, 184=connector spring, 185=bearing is hole, 186=convex guard shaft, 187=installation plate, eaves=elbow Shaft, 189 = Elbow pull arm, 190 = Elbow presser arm, 1
91 = wire fixing hole, 192 = bearing is hole, 193
= U-shaped flange, 194 = elbow shaft retaining hole,
195 = cable fixing screw hole, 196 = cable q voice body, 197 = wire, 198 = rocker arm, 199
=Rotsuka armshaft, 2oO==Rotsuka arm, 2
01 = Spring hook is shaft, 202 = Wire stopper ball, 203
= Cable support, 2o4 = Cable holding cap, 205 = Wire retaining hole, 2o6 = Spring hook is pin, 2
07 = Heel frame reinforcement stay', 207A = Shaft attachment is stay, 207 B = Upper plate attachment is surface, 208 = Surface of sole Jω = Melon tip wire cross,
210 = Wire cloth at fingertips, 211 = Back side of sole, 2
12 = Reinforcement plate, 213 = Guard pin head hole, 214 =
Digital device support, 214A = side surface of support notch, 21
4B = Support cutout surface, 215 = Spiritual ground socket, 21
6 = Micro battery, 217 = Transparent synthetic resin plate, 218
= seam, 219 = peephole. ＋＋・＋＋・１・１――・――・■・―＋・・Kaiichichigoechigo・111・＋１、・１１＋Go・――■――――・・・１■
■・＋Fist・■・・Misaki・――・■・Kaitai・Oka・・I＋＋＋−
――・１・――――■・Self 1・＋―・■・One+・31st hidden fan 381 Picture story hand O picture sugar +1 closed (ztq)

Claims (5)

[Claims] (1) The oil pump is activated by the bending action of the bulge of the foot during walking, and the oil pump's function activates the air pump installed in the heel, which pumps fresh air from outside into the inside of the shoe. Shoes configured to deliver. (2) The wire cable is activated by the bending action of the bulge of the foot during walking, and the function of the wire cable activates the air pump installed in the heel, which brings fresh air from outside into the inside of the shoe. Shoes configured to be delivered. (3) Shoes according to claim (1) or (2), wherein a warmer body is provided on the outside of the shoe and warm air is sent into the inside of the shoe by the function of an air pump provided in the heel. . (4) In conjunction with the bending action, the object to be pressed down is pushed down (pressed down) by the pushing down action of the lever that has a fulcrum, but even after the pushing down action has ended (even if the pushing action has stopped), let's still push down the lever that is the driving force. A device that continues to move with the same bending action (with the same speed and force). (5) The object to be pressed is pushed down by the downward action of the lever that accompanies the bending action of the bulge of the foot, and even after the downward action has ended, the lever for the bending action continues to move with the same action. Shoes according to claim (1), (2) or (3).