RU2103893C1 - Vacuum cleaning shoe - Google Patents

Abstract

FIELD: shoe industry, in particular, cleaning of production rooms from dust, may be also used in museums, hospitals. SUBSTANCE: shoe has top part joined with sole, which is provided with through holes-channels for drawing dust-laden air into front and rear resilient flexible chambers arranged in lower part of shoe. Holes-channels are closed with inlet flaps located on inner side of sole, which does not contact with floor. Net is positioned between inner and outer sides of sole to prevent large dust and garbage particles from penetrating into chambers. Flexible resilient chambers are connected through air ducts via union and discharge valves with dust accumulating chamber located within protective outer collar in upper part of shoe. Dust-accumulating chamber and protective collar may be detached to facilitate replacement of dust-accumulating chamber. During walking, dust-laden air is sucked due to multiple cyclic interaction between user's foot and alternatively front and rear chambers and fed into dust-accumulating chamber. EFFECT: increased efficiency, simplified construction and enhanced reliability in operation. 5 dwg

Description

 The invention relates to the shoe industry and can be used to clean the floors of rooms from dust where it is necessary to maintain constant floor cleanliness: in hospitals, museums, special production rooms.

 Wading boots are known (auth. St. SU, 1600682, class A 43 B 3/02, 7/06, 1990), containing each shaft with a through channel for communication with the atmosphere and a check valve in the upper part of the channel, the sole having an inner and the outer layer, between which a cavity of variable volume is formed, into which the lower part of the channel exits, while the outer layer of the sole is provided with through holes, moreover, the holes in the outer layer of the sole are in the form of check valves and have the form of oblique arcuate cutouts, and the sole is additionally equipped with an intermediate layer with squaw GOVERNMENTAL holes installed with a gap between the inner and outer layers of the sole.

 Closer in design features is a ventilated shoe (ed. St., SU, 1357007, class A 43 B 7/06, 1987), which has a top blank with a sole and an inner stocking with an insole in which the means for ventilation are located, moreover, the inner stocking in its upper part has a cuff with channels for ventilation, the insole is made of two layers of elastic material with a system of inlet and exhaust valves (which is essentially an elastic elastic chamber), while the bottom layer of the insole is grooved from its running side, and the cuff completed but from a porous material.

 The disadvantage of these inventions is that they are not suitable for cleaning the floors of rooms from dust when walking.

 The objective of the invention is to expand the functionality of shoes by providing it with the function of cleaning the surface of floors of rooms from dust when walking.

 The problem is achieved in that the boot-vacuum cleaner contains a top connected to the sole, front and rear elastic elastic chambers installed in the lower part of the boot. The sole has through holes, which are closed by inlet valves located on the inside of the sole, which is not in contact with the floor. Between the inside and outside of the sole there is a mesh. Through-holes through the intake valve system are connected to the front and rear elastic elastic chambers connected by air pipes through the fittings and exhaust valves with a dust chamber installed inside the protective cuff located outside the upper part of the boot.

 The dust chamber and the protective sleeve are removable; the mesh size is smaller than the inside diameter of the fitting.

 In FIG. 1 is a schematic illustration of a vacuum cleaner boot, side view, with a longitudinal section along A in the upper part and a longitudinal section along B in the lower part; in FIG. 2 - boot-vacuum cleaner, front view; in FIG. 3 is a rear view, in FIG. 4 is a top view; in FIG. 5 - the sole of the shoe-vacuum cleaner.

 A vacuum cleaner shoe contains an upper 1 with a sole in which through holes 3 are made for sucking in dusty air into the front 4 and rear 5 elastic resilient chambers, inlet valves 6 of the front resilient elastic chamber 4, inlet valves 7 of the rear resilient elastic chamber 5, two front air tubes 8, two side air tubes 9, which are connected respectively through the front fittings 10 and exhaust valves 11 and side fittings 12 and exhaust valves 13, made in conjunction with the dust chamber 14 located inside three removable outer cuffs 15, mesh 16.

 For clarity, all valves are shown open, and the elastic elastic chambers 4 and 5 are filled with air.

 To prevent suction into the chambers, air tubes, fittings and valves of large particles of dust and debris that can clog or clog them, a mesh made of elastic material is introduced between the outer and inner sides of the sole of the boot when assembling the boot. The mesh size is selected smaller than the smallest section of the air duct system: fittings, valves, air ducts.

 The chamber material has elastic properties, so the chamber, after compression, under the action of elastic forces is able to expand, increase its volume.

 The dust chamber 14 and the outer cuff 15 are toroidal. The dust collecting chamber 14 passes air well, but retains dust (like a dust bag in a conventional vacuum cleaner, only another, toroidal shape). The outer cuff 15 is a cover that serves to house the dust chamber 14 and protects it from damage. The outer cuff can be made, for example, with a zipper for quick and convenient unfastening, when you need to remove the dust chamber, and fastening - during reverse operation. The outer cuff is attached to the boot around the circumference. It has four holes for the input of the fitting-valves. These nozzle-valves are hermetically connected to the dust-collecting chamber 14. Four air ducts coming from the lower front and rear elastic elastic chambers are connected outside the nozzles. To lead air tubes from elastic elastic chambers 4 and 5 to the outside and further into the dust chamber, in the boot wall, in its lower part closer to the sole, holes are made in the outer diameter of these tubes at the junctions of these tubes with the chambers. The upper ends of the air tubes tightly, tightly fit on the upper nozzles-valves when the dust chamber is installed, and can be removed from the nozzles-valves when removing the dust-filled chamber filled with dust. The dust-collecting chamber can be made integral with the nozzle-valves (in the case of single use), and then, after filling it with dust, it is disconnected from the air pipes and ejected, or it can be made opening to remove (shake) dust from it in the variant of its reusable use.

 Boot vacuum cleaner operates as follows.

 At rest, when the sole is in contact with the floor, chambers 4 and 5 are in a compressed state and their volume is minimal.

 When walking, when lifting the heel, the static load is removed from the rear elastic elastic chamber 5. The inlet valves 7 are opened and the exhaust valves 13 are closed. The rear elastic elastic chamber 5 is filled with air through the through-channels 3, entraining dust particles. When the rear chamber 5 is completely filled with air, the air pressure in the chamber will become atmospheric, the intake valves will close. Further, when lifting the toe of the boot, the static load is removed from the front elastic elastic chamber 4. The inlet valves 6 are opened, the exhaust valves 11 are closed and the front elastic elastic chamber 4 through the through-channels 3 is also filled with air entraining dust particles. When the front chamber 4 is completely filled with air, the air pressure in the chamber becomes equal to atmospheric and the intake valves 6 are closed.

 When lowering the legs with the shoe on the floor surface, the heel of the foot presses on the back chamber 5, which begins to shrink, decreasing in volume. In this case, the intake valves 7 are closed and the exhaust valves 13 are opened. Air together with dust particles begins to flow from the chamber 5 through the side air ducts 9, the nozzle 12 and the valves 13 into the dust chamber 14. Then the air exits through the breathable walls of the dust chamber 14 and the removable the outer cuff 15, in the dust particles are delayed by the dustproof wall of the dust chamber 14. This process continues until the back chamber is fully compressed. When the rear chamber is fully compressed, the air pressure in the chamber becomes equal to atmospheric and the exhaust valves 13 are closed.

 Next, the pressure of the foot is transferred to the front chamber 4. The chamber begins to compress, while the inlet valves 6 are closed, the exhaust valves 11 are opened. Air together with dust particles begins to flow from the front chamber 4 through the front air tubes 8, nozzle 10 and valves 11 into the dust chamber 14. Then the air exits through the breathable walls of the dust chamber 14 and the removable outer cuff 15, and the dust particles are held in the dust by the impenetrable wall of the dust chamber 14. This process continues until and the front camera 4 will not completely shrink. When the front chamber 4 is completely compressed, the air pressure in the chamber becomes equal to atmospheric, exhaust valves 11 are closed.

 When walking, this cycle is repeated many times, resulting in a gradual filling of the dust container with dust particles.

 The proposed design can be used both in boots and in boots, slippers and other shoes.

 Thus, the shoe has another useful function - cleaning the surface of the floors of rooms from dust.

Claims (1)

 A vacuum cleaner shoe, characterized in that it comprises a top connected to a sole made with through-channels, front and rear elastic chambers installed in the lower part of the shoe and connected to through-channels through inlet valves located on the inside soles, a protective cuff placed outside the boot in its upper part, a dust chamber installed inside it, connected to the front and rear elastic elastic chambers through air tubes having fittings made in conjunction with exhaust valves, and a mesh with cells located between the inner and outer sides of the sole of the sole, the size of which is smaller than the inner diameter of the nozzle, while the dust chamber and the protective cuff are removable.

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