RU2269919C2 - Liquid vacuum cleaner with one or more suction branch pipes - Google Patents

Abstract

FIELD: dust removal equipment which may be used in home and industrial premises for dry cleaning of said premises from dust and soil, and which may serve as air cleaner operating in periodic and continuous modes.

SUBSTANCE: cleaning of dust laden air flow is provided with the use of liquid flow continuously fed during the whole cleaning cycle for intersecting air flow in direction perpendicular thereto to form fine air cleaning filter. Apparatus is made in the form of air washing machine, wherein liquid flow velocity exceeds air flow velocity by at least 30-50 times. Apparatus has transparent or opaque reservoir for liquid, which is made in the form of body of rotation consisting of two halves: lower part for containing of working liquid and having cylindrical wall with lower portion bent inward of reservoir, with monotonous inclination thereof toward discharge branch pipe with pipe and horizontal bottom. Upper U-shaped half of smaller diameter has upper inwardly bent portion provided with one or more suction branch pipes. U-shaped part is lowered with its walls of unequal height into liquid. Internal wall of upper half is made in the form of static air cleaning coarse filter, which, during operating cycle, continuously runs around it from the bottom to leave dust and soil particle in water, said particles settling onto bottom of reservoir lower half. Working liquid purity sensor located within reservoir provides for automatic operation in conjunction with vacuum cleaner. Cylindrical and conical baffles provide for zigzag-shaped motion of air flow in horizontal plane and impart properties preventing vacuum cleaner from bubbling and vibrating motions during movement thereof. All of mentioned parts and units have single vertical axis of symmetry. Vacuum cleaner is equipped with detachable head allowing reservoir to be emptied upon reversal of electric engine during and after cleaning of premises desirable number of times. Vacuum cleaner may have antimicrobial coating, ultraviolet lamp and permanent magnet.

EFFECT: provision for providing desirable suction power, wider operational capabilities and improved ecology control in premises.

5 dwg

Description

The invention relates to dust collecting, floor, mobile (stationary) equipment and can be used in domestic and industrial conditions for the periodic cleaning of rooms and objects for various purposes, located in them, from dust and dirt. It can also be used for cleaning polluted air in domestic and industrial premises, and in the stationary version as an air-cleaning apparatus operating in automatic continuous mode while improving the environment of the room.

Known liquid vacuum cleaner with one or more suction nozzles, containing a flexible hose, a suction nozzle, which is a dust collector housing with a plastic base and a lid, a suction unit with an electric motor [1].

The objective of the invention is to provide a liquid vacuum cleaner with one or more suction nozzles, which is one of the modifications of liquid vacuum cleaners. It is expressed in the aggregate of essential features sufficient to achieve the technical result provided by the invention.

This result is achieved in that a liquid vacuum cleaner with one or more suction nozzles with one vertical axis of symmetry contains a liquid vessel in the form of a body of revolution, consisting of two halves, upper and lower, made of transparent or opaque materials, the inner surface of which is not covered or covered with an antibacterial composition, the lower one is inserted into the seat of the lower case and is a vertical cylindrical wall, which is sealed at the top along the perimeter of the horizontal ontal joint to the horizontal or inclined round cover of the upper case by means of rubber gaskets and quick-release locks, pressing the upper case to the lower one, and at the bottom there is a bend inside the vessel, smoothly turning into a conical horizontal bottom of the vessel with a bulge up, and the bottom of the bend in a diametrical section is monotonously lowered down increasing the height of the outer wall to a maximum value that determines the installation location on the bottom from the bottom of the curved branch pipe turning into a vertical or inclined the cockpit, the upper half of the vessel is strengthened from below to the cover of the upper case, the outer wall of which also has a cylindrical shape of a smaller diameter than the inner diameter of the lower half, but already with a bend upward inward, turning into a cylindrical wall, both walls or lowered into the liquid, are not equal in height: the outer one is lowered lower, with the possibility of forming a water lock in the air, and the inner one is higher with the formation of a static air filter, or only the outer one is lowered into the liquid, and the inner one is raised above its calculated level, allowing air to pass freely above the surface of the liquid, either one nozzle is installed on the bend of the upper half of the vessel, equipped with a lock for connecting a flexible hose, located at the same radius as the cylindrical tube of the lower half of the vessel, or several pipes of vertical or inclined, cylindrical or concave shape, with concentric front and rear walls connected by oval side walls, or a combined shape, the concave part of the pipe smoothly transition t into a cylindrical one, all nozzles and a cylindrical tube are brought to the outer surface of the cover of the upper case to ensure tightness at the places of their exit, the nozzles are equipped with or not equipped with locks for connecting one or more flexible hoses, the axial wheel of the actuator, locked from the bottom with a centrifugal filter wheel fine air purification, is in the first embodiment: two impellers, each of which consists of a sleeve with a blade rim, mounted in series on the output shaft the electric motor, the distance between them, as well as between the lower impeller and the fine filter, is determined by the installation rings, the outer diameter of which is equal to the diameter of the impeller bushing, the intermediate and air inlet apparatus are fixedly fixed in the pipe with the possibility of increasing the suction capacity of the vacuum cleaner by creating air back pressure, with a guaranteed gap between the intermediate air apparatus and the impellers, between the air inlet apparatus and the impeller and the fine filter Ontals and mounting rings vertically, the apparatus for the impellers have two thin-walled rings installed coaxially: the outer one with an outer diameter equal to the inner diameter of the pipe, and the inner one with an inner diameter larger than the outer diameter of the mounting ring, between the rings there is a lattice of radially mounted inclined ribs, the number of which is equal to or a multiple of the number of impeller blades, with the ability to direct the outgoing air flow swirling against the direction of rotation of the impellers; in the second embodiment, the axial wheel is one or two sequentially mounted centrifugal wheels, the distance between which is determined by a sleeve with a cavity along the axis, each of which consists of curved blades mounted vertically equally remotely between two thin round sheets, with an outer diameter that limits the dimensions of the blades smaller than the inner diameter of the pipe, the upper of which is pressed against the fixing sleeve mounted on the motor shaft, and has an opening corresponding to the diameter ala, and the bottom sheet is a hole that limits the dimensions of the blades along the inner diameter, with the possibility of the passage of air flow from a vertical direction along the axis of the shaft to horizontal along the blades with a transition to vertical, but along the inner wall of the pipe, while the inlet apparatus for air flow from the centrifugal wheel must be fixed motionless in a horizontal plane in the pipe with a gap between the wheel and the fine filter or two wheels horizontally, with a sleeve, smooth or with axial inlet mounted on the motor shaft, it is vertically pressed from above to the top sheet of the centrifugal wheel, and from the bottom to the fine filter and determines the distance between them, the input device gives the centrifugal wheel the ability to use it as an axial one and consists of two thin round sheets installed between them there are vertical curved blades similar to centrifugal impellers, the upper sheet having an outer diameter having a downward bend equal in diameter to the inner diameter of the pipe and to the inner For example, upward bending, which enters with a gap in the hole of the bottom sheet of the centrifugal wheel by its thickness, the bottom sheet has an outer diameter equal to the outer diameter of the centrifugal wheel, and the inner diameter is slightly larger than the diameter of the sleeve, the radial ribs fastening the platform to the inner surface of the pipe, which is equipped with an electric motor, as an outlet apparatus for air, therefore, for the impeller, the ribs are made inclined in an amount corresponding to or a multiple of the number of impeller blades, and for the center a beige wheel — vertical curvilinear in an amount equal to the number of blades of the latter, a round sheet is installed on the ribs on top, the outer diameter of which is equal to the inner diameter of the pipe, and the inner is larger than the diameter of the cup equipped with thin outer ribs directed along the axis that closes the motor from above or hermetically, or with the release of its internal volume to the outer surface of the upper case by using one or more tubes as air ducts, a round sheet of bunks is pressed from below to the ribs the diameter equal to the diameter of the centrifugal wheel, and with an internal, slightly larger diameter of the fixing sleeve, with the ability to provide air movement for both the output and input devices along the inner wall of the pipe upward vertically, then along curved ribs or vanes of the centrifugal wheel to the axis of symmetry horizontally with its exit along the wall of the glass or along the sleeve again upwards vertically, on the upper half of the vessel, leans in compliance with tightness along the perimeter of the junction conical with a small with the clone up, the lid suspended rigidly simultaneously with the upper half of the vessel to the bottom of the lid of the upper case, made of transparent or opaque material, with a hole along the axis whose diameter is equal to the diameter of the pipe, and between the bottom of the pipe and the top of the lid there is a horizontal annular gap sufficient for passage circular fluid flow from the fine filter, to the bottom of the inclined cover are mounted in the gap between the inner wall of the upper half of the vessel and a cylindrical thin-walled glass, installed m upside down, in which there is an opening for the passage of a nozzle lowered into the liquid with its cylindrical part, two or four conical or cylindrical reflectors having a common axis of symmetry coinciding with the axis of symmetry of the liquid vessel, overlapping each other in the space between the inclined cover and the level horizontal liquid and the inner wall of the upper half of the vessel and a thin-walled cylindrical glass vertically, with the possibility of providing a zigzag motion of air in the horizontal direction, moreover, the first reflector has the ability to pass the air stream, circling the inner wall of the upper half of the vessel from the bottom, into the narrow gap between the inclined cover and the upper edge of the reflector, provided by the racks fastening the reflector to the cover, the lower edge of which is lowered into the liquid filling the lower half of the vessel, and the next a smaller diameter reflector is hermetically connected along the upper perimeter with an inclined cover, it has the ability to pass a stream already into the gap between its lower edge and the liquid surface, and yes direct it along a circular passage in the cross section, the outer diameter of which is equal to or greater than the inner diameter of the pipe of the upper casing, and the inner diameter is equal to the diameter of the cylindrical cup, which is comparable either with the outer diameter of the impeller bushing or with the outer diameter of the centrifugal wheel, the cup is fixed coaxially by means of rods a liquid purity sensor is installed to the inner wall of the reflector, and inside the glass, and it can either be mounted coaxially on non-magnetic rods or a ring-shaped constant is not installed the magnet inside which the nozzle is placed above the glass with ribs is either not installed, or the UV lamp is installed along the symmetry axis, in the casing or without the casing with the possibility of irradiating the entire stream of purified air passing by ultraviolet rays, for possible pouring clean liquid into the vessel and draining contaminated the device is equipped with an additional nozzle with the necessary removal of the flexible hose before this procedure, which consists of a flange with the possibility of hermetically closing the suction pipe with simultaneous tight connection of a thin hose, one end of which is rigidly fixed in the flange and coaxial with a vertical or inclined pipe of the branch pipe, or a flexible hose is interlocked with a thin hose with the simultaneous installation of two valves, which make it possible to use both for their intended purpose, depending on the operating mode devices: during the operating mode, the valve on the thin tube is closed, on the flexible hose is open, in the mode of filling clean and draining contaminated fluid, the flexible hose valve is closed, thin tube open.

The list of drawings:

Figure 1 shows the proposed vacuum cleaner with two axial wheels in the form of impellers, a sectional view of the General view.

Figure 2 shows the proposed vacuum cleaner with one axial wheel, which is made in the form of a movable centrifugal wheel mounted on the motor shaft, and a fixed wheel installed in the pipe, a sectional view of the General view.

Figure 3 shows the proposed vacuum cleaner top view along arrow A in figure 1.

In Fig. 4, section B-B in Fig. 1, an output apparatus for an axial wheel in the form of an impeller.

In Fig. 5, section CC in Fig. 2, the output apparatus for the axle wheel is in the form of a centrifugal wheel.

A liquid vacuum cleaner with one or more suction nozzles is shown in figures 1-5. It is equipped with a flexible hose 1, a telescopic extension tube, a set of nozzles and contains a lower housing 2, which is a dust collector and has a plastic or metal base 3 with or without rotating wheels 4, a transparent or opaque removable liquid vessel 5 inserted into the seat, made in the shape of the body of rotation, and the lower case 2 is connected hermetically to the upper case 6 along the perimeter of the joint by quick-release locks 7. It has a handle 8, a control panel 9, a reversible electric motor 10 with with thawed or variable power, mounted by the output shaft downward vertically along the axis of symmetry and on shock absorbers on a circular horizontal platform 11. The latter is fixed by rigid radial ribs 12 to the inner wall of the pipe 13 mounted vertically in the cover of the upper casing 14 along its axis of symmetry. The pipe 13 tapers to the top with the formation of a seat for installing the outlet grill 15 and with the simultaneous bending, with a clearance sufficient for air passage, of a thin-walled streamlined cup 16, which guarantees the tightness of the drive compartment. The executive mechanism of the vacuum cleaner is designed to provide suction power and fine air filtration, is rigidly fixed to the output shaft of the electric motor 10, is an axial impeller, interlocked with a liquid fine filter of air purification, which is a centrifugal wheel with a pipe 17 lowered into the liquid. Reflectors inside the vessel 5 have the ability to quench the fluid barbation, and an additional nozzle 18, which is installed instead of the flexible hose 1, provides the possibility of pouring clean liquid into the vessel and draining dirty into the sewer.

The proposed vacuum cleaner is characterized in that the vessel for the liquid consists of two halves: the upper 19 and the lower 20, made of transparent or opaque materials, the inner surface of which is not coated or coated with an antibacterial composition, the lower 20 being inserted into the seat of the lower case 2 and represents a vertical cylindrical wall 21, which is sealed at the top along the perimeter of the horizontal joint to the horizontal or inclined round cover 14 of the upper housing 6 by means of a rubber gasket 22 and quick-release locks 7, pressing the upper case 6 to the lower 2. At the bottom, the wall 21 has a bend inside the vessel 23, smoothly turning into a conical horizontal bottom 24 with a bulge upward. The bottom of the bend 23 in a diametrical section is monotonically lowered downward with an increase in the height of the outer wall to a maximum value determining the place of installation on the bottom from the bottom of the curved branch pipe 25, which passes into a vertical or inclined tube 26. The upper half of the vessel 19 is attached to the cover of the upper case 14 from below. Its outer wall 27 also has a cylindrical shape of a smaller diameter than the inner diameter of the lower half of the vessel 20, but with a bend at the top inward 28, turning into a cylindrical wall. Both walls 27 and 28 are either lowered into the liquid 29 and are not equal in height: the outer wall is lowered with the possibility of forming a water lock in the air, and the inner wall is higher with the formation of a static air filter, or only the outer wall 27 is lowered into the liquid, and the inner wall 28 is raised above its calculated level, thereby providing the possibility of free passage of air above the surface of the liquid 29. On the bend 28 of the upper half of the vessel 19 is installed or one pipe 30, equipped with a lock for connecting the flexible hose 1, is located connected at the same radius with a cylindrical tube 26 of the lower half of the vessel 5, or several pipes of vertical or inclined cylindrical 30 or concave shape with concentric front and rear walls connected by oval side walls 31. A combined shape of the pipe is also possible when its concave part smoothly passes into cylindrical 32. All nozzles and a cylindrical tube 26 are brought to the outer surface of the cover of the upper housing 14 to ensure tightness at the outlet of the nozzle or nozzles that are not supplied They are either equipped with locks for connecting one or more flexible hoses. The axial wheel of the actuator, locked from below with a centrifugal wheel - fine air filter 33, is in the first embodiment two impellers 34, consisting of a sleeve with a blade rim, mounted in series on the output shaft of the electric motor 10. The distance between them, as well as between the lower impeller and fine filter 33, is determined by the installation rings 35, the outer diameter of which is equal to the diameter of the impeller hub. The intermediate 36 and inlet 37 air apparatuses are fixedly fixed in the pipe 13 with the possibility of increasing the suction power of the vacuum cleaner by creating an air backpressure, with a guaranteed gap between the intermediate air apparatus 36 and the impellers 34 between the air inlet apparatus 37, the impeller 34 and the fine filter 33 horizontally and adjusting rings 35 vertically. The impeller apparatuses have two thin-walled rings 38 and 39 installed coaxially: the outer 38 with an outer diameter equal to the inner diameter of the pipe 13, and the inner 39 with an inner diameter larger than the outer diameter of the mounting ring 35. Between the rings there is a lattice of radially mounted inclined ribs 40, the number of which is equal to or a multiple of the number of impeller blades 34, with the ability to direct the exhaust air flow swirling against the direction of rotation of the latter, in the second embodiment, the axial wheel is one or two of the series arrangement of the centrifugal wheel 41, the distance between which is caused by depression with the sleeve axis. It consists of curved blades 42 mounted vertically equally spaced between two thin circular sheets 43, 44, with an outer diameter that limits the dimensions of the blades smaller than the inner diameter of the pipe 13. The upper sheet 43 is pressed against a fixing sleeve 45 mounted on the shaft of the electric motor 10 and has a hole corresponding to the diameter of the shaft, and the bottom sheet 44 has a hole that limits the dimensions of the blades 42 by the inner diameter. Thus, it is possible to pass the air flow from a vertical direction along the axis of the shaft to horizontal along the blades 42 with the transition to vertical, but already along the inner wall of the pipe 13.

The inlet apparatus 46 for the air flow 47 from the centrifugal wheel 41 should be fixed motionless in a horizontal plane in the pipe 13 with a gap between the wheel 41 and the fine filter 33 or two horizontal wheels 41. With sleeve 48, smooth or with an axial cavity, there should be a vertical clearance. It is mounted on the shaft of the electric motor 10, pushed from above to the sheet 43 of the centrifugal wheel, and from below to the fine filter 33 and determines the distance between them. The input device 46 gives the centrifugal wheel the ability to use it as an axial one. It consists of two thin round sheets 49, 50 and vertical curved blades 51 mounted between them, similar to the blades of a centrifugal wheel 41. Moreover, the upper sheet 49 has an outer bend downward, equal in diameter to the inner diameter of the pipe 13, and upward bend in internal diameter , which comes with a gap in the hole of the bottom sheet 44 of the centrifugal wheel 41 by the value of its thickness. The bottom sheet 50 has an outer diameter that limits the dimensions of the vanes 51, equal to the outer diameter of the centrifugal wheel 41, and the inner diameter is slightly larger than the diameter of the sleeve 48. The radial ribs that attach the platform 11 to the inner surface of the pipe 13, on which the electric motor 10 is mounted, serve as an output apparatus for air: for the impeller 52, for the centrifugal wheel 53. Therefore, the ribs 54 are made inclined, in an amount corresponding to or a multiple of the number of impeller blades 34, and the ribs 55 - vertical curved, in equal to the number of blades 42 of the centrifugal wheel 41. A round sheet 56 is installed on the ribs 55 on top, the outer diameter of which is equal to the inner diameter of the pipe 13, and the inner is larger than the diameter of the cup 16, equipped with thin outer ribs 57 directed along the axis and closing the motor 10 from above or hermetically or with the release of its internal volume to the outer surface of the upper housing 6 by using one or more tubes 58 as air ducts. A round sheet 59 with an outer diameter equal to the diameter of the centrifugal wheel 41, with an inner, slightly larger diameter retaining sleeve 45, is pressed against the ribs 55 from the bottom. For the outlet apparatus 53 and for the inlet apparatus 46, it is thus possible to move the air along the inner wall of the pipe 13 upward vertically, then along the curved ribs 51 or the blades of the centrifugal wheel 42 to the axis of symmetry horizontally with its exit along the wall of the cup 16 or along sleeves 48 again upwards vertically.

On the upper half of the vessel 19 is supported with tightness around the perimeter of the joint conical cover 60 with a slight inclination upward, suspended rigidly by rods 61 simultaneously with the upper half of the vessel 19 to the bottom of the cover of the upper housing 14. The cover 60 is made of transparent or opaque material with an axis hole, the diameter of which is equal to the diameter of the pipe 13, and between the bottom of the pipe 13 and the top of the cap there is a horizontal annular gap sufficient for the passage of a circular fluid flow from the fine filter 33. To the bottom the pubic lid 60 are mounted between the inner wall of the upper half of the vessel 28 and a cylindrical thin-walled cup 62, installed upside down, in which there is an opening for the passage of the filter nozzle 17, lowered into the liquid 29 with its cylindrical part, two or four conical or cylindrical reflectors 63, 64. They have a common axis of symmetry coinciding with the axis of symmetry of the liquid vessel, overlap each other in the space between the inclined cover 60 and the liquid level 29 horizontally and the inner the upper half of the vessel 28 and a thin-walled cylindrical glass 62 vertically with the possibility of providing a zigzag motion of air 65 in the horizontal direction. Moreover, the first reflector 63 has the ability to pass the air stream, circling the inner wall 28 of the upper half of the vessel 19 from the bottom, into the narrow gap between the inclined cover 60 and the upper edge of the reflector 63, provided by struts 66 that fasten the reflector to the cover, the lower edge of which is lowered into the liquid 29, filling the lower half of the vessel 20. A smaller diameter reflector 64 is hermetically connected along the upper perimeter to the inclined cover 60, has the ability to pass the flow into the gap between its lower edge and the surface of the liquid 29 and then direct it along a circular passageway, the outer diameter of which is equal to or greater than the inner diameter of the pipe of the upper housing 13, and the inner is equal to the diameter of the cylindrical cup 62, commensurate with the outer diameter of the impeller hub 34 or with the outer diameter of the centrifugal wheel 41. The cup 62 by rods 67 mounted coaxially to the inner wall of the reflector 63, and inside the glass mounted fluid purity sensor 68, and can also be installed coaxially on non-magnetic rods 69 or not installed ring-shaped constant a magnet 70, inside of which a nozzle 17 is placed. Above the glass with ribs 57 it is either not installed, or installed along the axis of symmetry, an ultraviolet lamp 71 in the casing or without casing with the ability to irradiate the entire stream of purified air passing by ultraviolet rays.

For a possible pouring of clean liquid into the vessel and draining the contaminated device, the device is equipped with an additional nozzle 18 with the necessary removal of the flexible hose 1 before this procedure. It consists of a flange 72 with the possibility of hermetically closing the suction nozzle 30, while simultaneously tightly connecting a thin hose 73, one end of which is rigidly fixed to the flange 72 and is aligned with the vertical or inclined tube 26 of the outlet pipe 25, or the flexible hose 1 is interlocked with a thin hose 73 by means of a flange 74 with the simultaneous installation of two valves 75, 76, providing the possibility of using both of them for their intended purpose, depending on the operating mode of the device: during operation, the valve 75 is thin the hose is closed, on the flexible hose the valve 76 is open, in the regime of filling with clean and draining contaminated fluid, the valve of the flexible hose is closed and the thin hose is open.

The device is used in two modes of operation: periodic, with movement on the floor, cleaning from dust and dirt both the room itself and the objects inside it, and without nozzles and a flexible hose as an room air cleaner. In the second - only as an air purifier that improves the environment of the room.

When working in the first mode, it is necessary to fix on the nozzle 30, equipped with a lock, a removable nozzle 18 or use a flexible hose 1, interlocked with a thin hose 73, and move the vacuum cleaner to the vessel or vice versa, bring the vessel to the vacuum cleaner. Pour liquid into the vessel, possibly pre-filtered, deodorized, with aromatic oils, with dissolved drugs. The upper part of the thin hose 77 should be connected either to the water tap by means of the adapter sleeve or to be lowered into the vessel with the liquid filled. Then press the "Liquid fill" button. In the first case, the axial impeller of the fan (possibly turned on not at full power) is driven, and due to rarefaction, the liquid is sucked into the vessel 20 in the volume limited by the level gauge 78, which gives the command to stop the motor 10, while being accompanied by light and sound signals indicating the end of the fluid in a given volume in the vacuum cleaner. A simpler and cheaper solution: a calibrated volume of liquid (2.5, 3 l) is poured into the vessel, which is completely sucked into the vacuum cleaner through a thin hose 73 without using a level gauge 78. In the second case, it is necessary to open the valve and the valve 75 of the thin hose 73 automatically the command of the level gauge 78 will block the flow of fluid into the vessel 20 of the vacuum cleaner.

To start working with a vacuum cleaner, it is necessary to replace the nozzle 18 with a flexible hose 1, which blocks its access to the tube 26 with its flange 74, to which devices and nozzles traditional for vacuum cleaners should be connected. When the vacuum cleaner is turned on, the suction power causes the air, together with dust and dirt, to move from the nozzle through the telescopic tube, flexible hose 1, through the vessel static coarse filter 19, the fine filter 33, the axial wheel, along the vertical ribs 57 of the cup 16 and the inner the walls of the pipe 13, while cooling the compartment of the electric motor 79, the grill 15, and again return already cleaned and moistened to the room.

When using a vacuum cleaner as an air purifier, the principle of air purification itself does not change. The design feature of the device in question is that the contaminated air is sucked in through one of the nozzles 30, 31, 32 located on the bend 28 of the upper half of the vessel 19, or at the same time through several, evenly distributed throughout the space between the inner wall of the bend and the liquid. If the inner wall is lowered into the liquid, then it is a fine filter, and the air moves with the suction power of the fan in the direction indicated by arrow 65. If the inner wall of the bend is raised above the liquid, then the air passes over the liquid in the direction indicated by arrow 80. Inlet dirty air is evenly distributed over the liquid 29 over the entire annular surface under the roof of the upper bend 28, and a small vacuum inside the vacuum cleaner is sufficient so that the air, overcoming a small adhesive force the material from which the vessel 19 was made and the liquid would first go down along the bend wall, leaving large and medium dirt particles at the bottom of the lower bend 23 of the vessel 20, and then round it, sharply up, creating a barbation (bubble effect ) at the exit of the liquid. Its intensity is proportional to the useful suction power, which can be increased by installing dual axial wheels in the form of two impellers 34, combined with the inlet 37 and intermediate 36 air devices, or in the form of two centrifugal wheels 41 with two inlet devices 46. For damping barbation in the device reflectors 63, 64 are installed, directing the air in a horizontal zigzag direction, indicated by arrow 65. Reflector 64 and the cylindrical wall of the glass 62 form an air flow in a vertical in the opposite direction, under the action of the suction force of the fan, an air cylindrical tube representing a section in cross section, which, on approach to the axial wheel, meets a “water sieve” 81 created by an air fine filter 33, made in the form of a centrifugal wheel equipped with an axial nozzle 17 lowered into the liquid locked with axle wheel. When it rotates, the fluid that is sucked by the nozzle 17 enters the blades 82 and, at a speed proportional to the number of revolutions of the electric motor 10 and the dimensions of the wheel, breaks off its outer diameter, which should be no less than 30-50 times the speed of air and dust particles and the dirt remaining in it after the first filtration, knocks the body data upon impact due to the possession of fluid particles with the corresponding kinetic energy in the direction of the resulting velocity close to horizontal, and takes them out of the air th stream. Next, the already contaminated liquid enters the vertical cylindrical wall 21 of the lower half of the vessel 20 and falls under the influence of gravity in the direction 83, using the circular gap between the walls 21 and 27, and accumulates at the bottom of the circular lower inclined bend 23, which is a dust and dirt collector (see arrow 84). This is facilitated by a rotating axial nozzle, displacing the latter as heavier fractions to the periphery (centrifugation method). Consequently, in the vacuum cleaner during the operating mode, a fluid cycle continuously occurs, which effectively cleans the sucked-in air - a kind of automatic washing machine for air, all the more constructively there are short-time fill-ups of clean liquid and draining of the contaminated vacuum cleaner without disassembling, an unlimited number of times.

At the same time, the cleanest liquid 29 that accumulates in the center of the vessel 29 by the friction force against the inner walls of the nozzle 17 is sucked in by the nozzle during the entire operating mode and, having risen up again, falls onto the air filter blades 33. At the same time, the liquid purity sensor 68 installed inside a thin-walled cup 62 with the possibility of determining the degree of contamination of the liquid in the intake area with its pipe 17, working, for example, on the principle of changing the magnitude of the signal from its nominal value during reflection, passing through cut a layer of liquid, constantly monitors its purity with the conclusion of the relevant information to the control panel of the vacuum cleaner. As soon as the liquid is contaminated above a certain limit, the sensor 68 gives a preemptive command and then automatically turns off the current supply to the electric motor of the device, which allows you to automate the control of the vacuum cleaner.

To empty the vacuum cleaner, it is necessary to replace the flexible hose 1, installed on the nozzle 30, with the nozzle 18, or leave the flexible hose 1, combined with a thin hose 73. After pressing the "Liquid drain" button, the electric motor 10 is switched on (possibly not at full power) in in the opposite direction to the worker, and, creating a counter-pressure, the axial wheel pushes all the liquid available in the lower half of the vessel 20 through the pipe 25, tube 26, and a thin hose 73 into the sewer, which is facilitated by the inclination of the annular bottom of the lower bend 23, forcing move it and concentrate at its lowest point, where the nozzle 25 is installed. Installing a single-acting annular valve 85 allows air to pass from the room to the vacuum cleaner, bypassing the outlet grill 15. The procedure "Liquid filling" (see above) and " Drain "if necessary, can be repeated several times.

The release of various modifications of the device, for example, with an antibacterial coating of the vessel walls, with the installation of an ultraviolet lamp 71, a permanent magnet 70, can improve the environment of the room.

LITERATURE

1. DE 20003181 U1, 06/18/2000.

Claims (1)

A vacuum cleaner with one or more suction nozzles, characterized in that the liquid vessel consists of two upper and lower halves made of transparent or opaque materials, the inner surface of which is not coated or coated with an antibacterial composition, the lower one being inserted into the seat of the lower case and represents a vertical cylindrical wall, which at the top is hermetically connected along the perimeter of the horizontal joint to the horizontal or inclined round cover of the upper case in the middle By means of a rubber gasket and quick-release locks, which press the upper case to the lower one, and at the bottom there is a bend inside the vessel, smoothly turning into a conical horizontal bottom of the vessel with a bulge upward, and the bottom of the bend in the diametrical section is monotonously lowered downward with an increase in the height of the outer wall to the maximum value determining the place installation on the bottom of the bottom of the curved branch pipe passing into a vertical or inclined tube, the upper half of the vessel is strengthened from the bottom to the cover of the upper case, the outer wall which also has a cylindrical shape of a smaller diameter than the inner diameter of the lower half, but with a bend upward inward, turning into a cylindrical wall, both walls or lowered into the liquid, are not equal in height: the outer one is lowered lower with the possibility of forming a water lock , and the inner one is higher with the formation of a static filter for rough air purification, or only the outer one is lowered into the liquid, and the inner one is raised above its calculated level, allowing free air to pass over the surface liquid, on the bend of the upper half of the vessel, either one nozzle is installed, equipped with a lock for connecting a flexible hose, located on the same radius as a cylindrical tube of the lower half of the vessel, or several nozzles of vertical or inclined, cylindrical or concave shape, with concentric front and rear walls, connected by oval side walls, or a combined shape, when the concave part of the pipe smoothly passes into a cylindrical one, all pipes and a cylindrical pipe are brought to an external the top cover of the upper housing is leakproof at the exit points, the nozzles are equipped with or are not equipped with locks for connecting one or several flexible hoses, the axial wheel of the actuator, locked from below with a centrifugal filter wheel for fine air purification, is in the first version: two impellers , each of which consists of a sleeve with a blade rim mounted sequentially on the output shaft of the electric motor, the distance between them, as well as between the lower impeller and the filter fine cleaning is determined by the installation rings, the outer diameter of which is equal to the diameter of the impeller bushing, the intermediate and inlet air apparatuses are fixedly fixed in the pipe, with the possibility of increasing the suction power of the vacuum cleaner by creating air back pressure, with a guaranteed gap between the intermediate air apparatus and the impellers, between the air inlet apparatus, the impeller and the fine filter horizontally and the vertical alignment rings, the impeller apparatuses have and thin-walled rings installed coaxially: the outer one with an outer diameter equal to the inner diameter of the pipe, and the inner one with an inner diameter larger than the outer diameter of the mounting ring, between the rings there is a lattice of radially mounted inclined ribs, the number of which is equal to or a multiple of the number of impeller blades, with the ability to direct the outgoing air flow swirling against the direction of rotation of the impellers, in the second embodiment, the axial wheel is one or two sequentially set prices robotic wheels, - the distance between which is determined by the sleeve with a cavity along the axis, each of which consists of curved blades mounted vertically equidistant between two thin round sheets, with an outer diameter that limits the dimensions of the blades less than the inner diameter of the pipe, the upper of which is pressed against the fixing a sleeve mounted on the shaft of the electric motor and has an opening corresponding to the diameter of the shaft, and the bottom sheet has an opening restricting the dimensions of the blades by the inner diameter, with the possibility of the passage of the air flow from the vertical direction along the axis of the shaft to the horizontal along the blades with the transition to the vertical, but already along the inner wall of the pipe, while the inlet apparatus for the air flow from the centrifugal wheel should be fixed motionless in a horizontal plane in the pipe with a gap between the wheel and a fine filter or two horizontal wheels, with a sleeve, smooth or with an axial cavity mounted on the motor shaft, vertically, it is pressed from above to the top center sheet hedgehog wheel, and from the bottom to the fine filter and determines the distance between them, the inlet device gives the centrifugal wheel the ability to use it as an axial one and consists of two thin round sheets, vertical curved blades installed between them, similar to the centrifugal wheel blades, with the top sheet on the outer the diameter has a downward bend equal in diameter to the inner diameter of the pipe, and upward in the inner diameter, which comes into play with a gap in the hole of the bottom sheet of the centrifugal wheel to its thickness, the bottom sheet has an outer diameter equal to the outer diameter of the centrifugal wheel, and the inner diameter is slightly larger than the diameter of the sleeve, the radial ribs that attach the platform to the inner surface of the pipe on which the electric motor is mounted, serve as an outlet for air, therefore, for the impeller the ribs are made inclined, in an amount corresponding to or a multiple of the number of impeller blades, and for a centrifugal wheel, vertical curved, in an amount equal to the number of blades of the latter, n and the ribs are mounted on top of a round sheet, the outer diameter of which is equal to the inner diameter of the pipe, and the inner is larger than the diameter of the cup, equipped with thin outer ribs directed along the axis, closing the motor from above or hermetically, or with the release of its internal volume to the outer surface of the upper case by using one or several tubes as ducts, a round sheet with an outer diameter equal to the diameter of the centrifugal wheel, and with an inner, slightly larger diameter, is pressed from below to the ribs trap of the fixing sleeve, with the ability to provide air movement for both the output and input devices along the inner wall of the pipe upwards vertically, then along the curved ribs or vanes of the centrifugal wheel to the axis of symmetry horizontally with its exit along the glass wall or along the sleeve again upwards vertically, on the upper half of the vessel, rests in compliance with tightness along the perimeter of the joint, a cone-shaped cover with a slight inclination upwards, suspended rigidly simultaneously with the upper half of the vessel to the bottom of the cover the upper case, made of transparent or opaque material, with a hole along the axis, the diameter of which is equal to the diameter of the pipe, and between the bottom of the pipe and the top of the cap there is a horizontal annular gap sufficient to allow a circular flow of liquid from the fine filter, attached to the bottom of the inclined cover in the interval between the inner wall of the upper half of the vessel and a cylindrical thin-walled glass, installed upside down, in which there is an opening for the passage of the pipe, and lowered into its liquid qi indically, two or four conical or cylindrical reflectors having a common axis of symmetry coinciding with the axis of symmetry of the fluid vessel, overlapping each other in the space between the inclined cover and the liquid level horizontally and the inner wall of the upper half of the vessel and a thin-walled cylindrical glass vertically with the possibility of providing a zigzag motion of air in the horizontal direction, and the first reflector has the ability to pass air flow that has circled the inner the wall of the upper half of the vessel from below into a narrow gap between the inclined cover and the upper edge of the reflector, provided by the struts fastening the reflector to the cover, the lower edge of which is lowered into the liquid filling the lower half of the vessel, and the next reflector, of smaller diameter, is hermetically connected along the upper perimeter with the inclined with a lid, it is able to pass a stream already into the gap between its lower edge and the surface of the liquid and then direct it along an annular passage in the cross section, the outer diameter of which is equal to or greater the inner diameter of the pipe of the upper casing, and the inner is equal to the diameter of the cylindrical glass, which is comparable with either the outer diameter of the impeller hub or the outer diameter of the centrifugal wheel, the glass is fixed coaxially to the inner wall of the reflector by means of rods, and a liquid purity sensor is installed inside the glass, and either be installed coaxially on non-magnetic rods, or an annular permanent magnet is not installed, inside of which the nozzle is placed, above the glass with ribs or not installed, or installed along the axis of symmetry, an ultraviolet lamp in the casing or without casing, with the possibility of irradiating the entire stream of purified air passing by ultraviolet rays, for the possible pouring of clean liquid into the vessel and draining contaminated, the device is equipped with an additional nozzle with the necessary removal of a flexible hose before this procedure, which consists from the flange with the possibility of hermetically closing the suction pipe with the simultaneous tight connection of a thin hose, one end of which is rigidly fixed to the it is coaxial with a vertical or inclined pipe of the branch pipe, or the flexible hose is interlocked with a thin hose with the simultaneous installation of two valves, which make it possible to use both for their intended purpose, depending on the operating mode of the device: during operation, the valve on the thin pipe is closed, on the flexible hose is open; in the clean and dirty mode, the flexible hose valve is closed and the thin hose is open.

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