RO132295A0 - Rotary duster with mechanically controlled speed - Google Patents

Abstract

The invention relates to a rotary duster used to vacuum in hardly accessible places and from unstable objects, with a mechanical system of rotational speed control, the device being able to be mounted to the hose of a vacuum cleaner. According to the invention, the device consists of a stator (A) and a rotor (B) which are coaxially assembled by means of a bearing (C), where the rotor (B) is provided, at the cylindrical end (B1) situated inside the stator (A) with an axial-type turbine (1), without central axle, the blades of which, directed towards the rotation axis, are integral with the interior circumference of the rotor (B), they being configured right from the body thereof, on the tapered portion (B2) situated outside the stator (A), the rotor (B) is provided with some brushes (2) with flexible bristles made of electrostatic microfiber and with suction slots (3), the entire mechanical speed control system (D) being mounted with an elastic sleeve on the stator (A), and a screw and spring mechanism exerting a variable pressure on the rotor (B).

Description

The invention relates to a dust suction rotary pad from hard-to-reach places and from unstable objects, provided with a mechanical speed control system, a device that can be mounted to a vacuum cleaner hose.

State of the art. Various dust removal devices are known in difficult to reach places and on unstable objects, the most important ones having the following characteristics:

* Suction nozzles without brushes, with various geometric configurations. Their disadvantage is that the dusts adhering to the surfaces cannot be aspirated and their unidirectional character forces the user to orient the nozzle to the surfaces to be cleaned.

* Suction nozzles with brushes. In addition to being unidirectional, they are not efficient in narrow spaces and cannot vacuum dust from unstable objects unless they are fixed or manipulated.

* Padlock type devices, manual or electrically operated. However, they do not have the function of suction of dust, and their efficiency is given only by the extent to which the dust adheres to the threads of the earth. In addition, in the electrically actuated ones, stopping the rotational movement of the shaft affects the engine.

* Dust suction devices are also provided with pneumatically operated rotary brushes through a radial turbine that utilizes the suction air flow. however, these are unidirectional nozzles and have relatively large dimensions, which makes them inefficient in difficult to reach spaces. And the radial type turbines, although they allow large suction surfaces and the vacuum power is better exploited, are complicated from a constructive and technological point of view, because they involve bearings and bearings for mounting the turbine shaft, and the connection between the turbine and the brushes is achieved through through mechanisms that decrease the mechanical efficiency of the air flow (gears, transmission belts, etc.).

The prior art knows fewer variants in which the axial turbines are used. The reason is that, although they are simpler from the constructive and technological point of view, the axial turbines feel limited by the relatively fixed parameter: the useful suction diameter, respectively the diameter of the hoses used in the vacuum cleaners, of about 30 mm.

The patents FR2960761 and DE10306824 propose solutions similar to the present invention, in that they consider the use of an axial turbine, integral with the rotating part through which the air flow and the suction dust circulate. but in both patents, the 2017 00521

27/07/2017 The blades of the turbine are oriented towards the outside of the rotating part to which they are attached, which diminishes the useful diameter of suction of the dust.

In addition, the two patents propose separate suction flows for the turbine and for the dust suction nozzle. This means that the turbine and the suction nozzle "divide" not only the useful suction diameter, fatally limited, but also the vacuum force of the air flow generated by the suction, which in turn is a limited parameter.

And the maximum use of the vacuum force is an even more important parameter because, for ecological reasons, the European Commission has limited the power that the engines of the vacuum cleaners can develop.

The aforementioned patents propose a pneumatic control of the rotational speed of the turbine, by increasing or decreasing the air flow that sets the turbine in motion. An intercondition is thus created between the rotational speed of the turbine-nozzle assembly and the vacuum vacuum force of the suction of dust: when the turbine and the rotary suction nozzle have the maximum speed, the suction force in the active suction area is minimum and when the suction force is maximum , the turbine and the nozzle do not rotate at all.

The proposed problem to be solved. The technical problem whose solution is proposed by the present invention consists in the construction of an efficient and economical device from a constructive and technological point of view, which combines the advantages of the earth (light touch of objects and penetrability in hard to reach areas) with the advantages of a rotary suction nozzle. multidirectional (which does not require the orientation of the suction mouth to the surface to be cleaned), so that areas and objects with the most varied geometries can be easily cleaned.

Exposure of the invention. As shown in Figure 1, the stator (A), made of plastic in the form of a cylinder, has one end (Al) at which the outer ring of the bearing (C) is mounted, and one end (A2), with the compatible diameter. with the diameter of the hose of a vacuum cleaner (not shown).

The rotor (B), made of plastic material, has a cylindrical portion (Bl) and a truncated portion (B2). The cylindrical portion, having a diameter approximately equal to the diameter of the hose from the vacuum cleaner, is mounted coaxially by the stator (A) through the inner ring of the bearing (C). In another embodiment, the cylindrical part and the truncated part of the rotor can be separated pieces, mounted by thread, so that the truncated part can be replaced with elements of other dimensions and geometries: cylindrical, spherical, hemispherical, etc.

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The rotor (B) plays the active role of the device through the two functions assigned to it according to the invention: the motor function and the brush / suction functions.

The motor function is realized by means of the axial type turbine (1), located at the end that is inside the stator (A). An essential feature of the turbine (1), which significantly simplifies the production technology, is that it does not have a central axis, its blades being integral with the circumference of the rotor (B) and oriented inwards, towards the axis of rotation. This solution helps to maximize the useful suction diameter offered by the vacuum cleaner. The constructive and technological simplicity is amplified by the fact that the rotor blades are configured from the same wall (Figure 2a, Figure 2b), which can be easily obtained by both stamping and pressure casting. In this documentation we have chosen the solution with 3 blades, but their number can vary between 2 and 6, depending on the rotation speed desired by the manufacturer, as the number of blades determines their attack surface and, thus, the speed of rotation.

The brushing / suction functions of the rotor (B) are performed by the trunk part (B2). The brushing is done with the help of longitudinal brushes (2), arranged evenly, made of flexible electrostatic microfiber yarns, similar to the ones from the pads. The suction is achieved by means of the three longitudinal suction slots (3), practiced between the brushes. In this documentation, the number of brushes and slots is three, but this can be two, if the length of the brush strings is to be increased. In another embodiment, one can opt for a single brush and a single slot, but both are arranged parallel and helical on the rotor surface (Figure 3).

If the user wants a lower rotational speed than the one generated by the vacuum cleaner, the present invention also proposes a mechanical speed control (D) system, shown in Figure 4a and Figure 4b. It consists of the elastic sleeve (4), the console (5), the cylindrical body (6) provided with inner thread at the top, the screw rosette (7) and the pressure pin (8), the last two being assembled by means of the spring ( 9).

Operation of the device. Once the vacuum cleaner is started, the vacuum created inside the stator sets the turbine and, consequently, the rotor. The rotational motion generates a centrifugal force that tends to keep the flexible strands of the brushes straight (2). They displace the dust wires on the surfaces to be cleaned, which are immediately suctioned through the suction slots (3).

When aspirating narrow and rigid areas, the user can opt for voluntary locking of the rotor, in which case the suction force remains constant, without affecting either the device nor the vacuum cleaner. The length of the wires from the brushes is adjusted so that in case of stopping 2017 00521

27/07/2017 rotor, they should not be sucked into slots. When the rotation movement returns, the wires return to the correct operating position due to the centrifugal force.

When aspirating unstable objects (glasses, bottles, vases, trinkets, other decorative objects), dust training is done by the rotating force of the brushes rather than by the user's pressing force, so that the user can control the distance between the pad and the respective objects for so that they do not overturn.

When the user wants a constant speed of rotation, but less than that generated by the vacuum vacuum force of the vacuum cleaner, he can mount the rotation speed control mechanism (D). The elastic bracket (4) is mounted by pressing on the stator (A), and the console is positioned above the rotor (B). When the user wants to reduce the rotational speed of the rotor, it acts by screwing the rosette (7), which pushes the spring (9) and the pin (8) until the latter touches and brakes the rotor (B) depending on the pressing force, once again. the suction force diminished.

Advantages over the prior art. The device proposed by the present invention removes the disadvantages identified in the prior art and cumulatively fulfills the following criteria:

* Exercises simultaneously, continuously and multidirectionally the functions of brushing and suction of dust.

* Allows the displacement and aspiration of dust in places difficult to access (libraries, shelves, multimedia enclosures, display cases, etc.).

* Allows the suction of dust from less stable objects (glasses, bottles, trinkets, other decorative objects) and again it is necessary to fix or manipulate them.

* It allows the voluntary or accidental stopping of the rotational movement of the rotor, keeping the suction force, and neither the device itself nor the vacuum cleaner to which it is attached is affected.

* It allows the control of the rotational speed of the rotor by means of a mechanical system, which does not diminish the suction force.

* Offers a constructive and technological simplicity that is obvious compared to the state of the art.

Presentation of drawings.

* Figure 1 - The device assembled, in axonometric view, with the rotor (B) fully represented, and the stator (A) and the bearing (C) in longitudinal section, again illustrating the mechanism of control of the rotational speed.

* Figure 2a - Side view of the turbine (1).

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27/07/2017 * Figure 2b - Front view of the turbine (1).

^: Figure 3 - Constructive variant of the trunk part (Bl) of the rotor, as a single brush and a single suction slot, arranged parallel and helical.

* Figure 4a - Axonometric view of the rotational speed control system (D).

* Figure 4b - Section view of the rotor braking mechanism, consisting of the threaded cylindrical body (6), screw rosette (7), pressure spring (9) and pressure pin (8).

Industrial applicability. The invention is susceptible to industrial application, since it has a large domestic utility, the device is extremely simple from a constructive and technological point of view and is expected to be produced by both the vacuum cleaner and independent manufacturers.

Claims (6)

claims 1. Rotary suction pad with mechanical speed control, consisting of a stator (A) and a rotor (B) mounted coaxially by means of a bearing (C), characterized in that the rotor is moved by a turbine. (1) axial center axle bearing, with blades attached to the circumference of the rotor and directed to the axis of rotation. Dust suction rotary shaft with mechanical speed control, according to claim 1, characterized in that the axial turbine (1) which starts the rotor has blades configured from the rotor body itself. 3. Dust suction rotary pad with mechanical speed control, characterized in that the truncated part (B2) of the rotor (B) is provided with brushes (2) of electrostatic microfiber yarns and suction slots (3), arranged alternately and longitudinal. A rotary suction pad with mechanical speed control according to claim 3, characterized in that the truncated part (B2) can be provided with a single brush and a single suction slot, both arranged parallel and helical. 5. Dust suction rotary sill with mechanical speed control, according to claim 3, characterized in that the cylindrical part (Bl) and the truncated part (B2) of the rotor (B) may also be separate parts, joined by threading, such that the part the truncation can be replaced by elements having other geometries, such as - but limited to - cylindrical, spherical or hemispherical. 6. Dust suction rotary pad with mechanical speed control, characterized in that it is provided with a mechanical (D) rotational speed control system, consisting of the elastic sleeve (4), console (5), cylindrical body (6 ) provided with inner thread at the top, screw rosette (7) and pressure pin (8), the last two being assembled by means of the spring (9) ·