RU2168118C2 - Device for surface cleaning of dust - Google Patents

Abstract

FIELD: devices for cleaning of complex surfaces of dust, in particular, vacuum cleaners for cleaning of industrial and domestic objects. SUBSTANCE: device has a cylindrical body with an inlet pipe coaxially arranged in it, suction device hermetically connected to the cavity of the intake pipe, swirler of the peripheral flow hermetically connected to the compressed gas source and positioned between the body and the intake pipe, as well as an exhaust pipe installed inside the intake pipe coaxially with it and hermetically connected to the impulse jet pneumatic generator. EFFECT: enhanced efficiency of dust separation and removal from the surface, enhanced economical efficiency and convenience in use. 3 cl, 1 dwg

Description

 The invention relates to devices for cleaning surfaces of complex shape from dust, in particular to vacuum cleaners for cleaning industrial and domestic objects.

 A device for cleaning dust from surfaces [1], containing a housing, a pipe (diffuser) for suction of dusty air and a nozzle system for compressed air.

 The disadvantages of the known device include the fact that, firstly, to activate the entire machined surface, it is necessary to use many nozzles, which complicates the design and requires a large flow of compressed air. Secondly, the scope of such a device is limited only by cleaning flat surfaces, and with a small distance of the pipe from these surfaces.

 Also known is a device for cleaning dusty surfaces using pneumatic generators that create powerful pulsed gas jets with the formation of a system of shock waves and rarefaction waves [2].

 The disadvantages of the pneumatic generator include the fact that when a pulsed gas jet acts on the surface to be cleaned, the dust removed from the exposure zone flies into the atmosphere, which leads to intensive dusting of the working area.

 Closest to the claimed device for the intended purpose and the totality of the features is a device for local exhaust ventilation [3], comprising a cylindrical body with a suction pipe coaxially placed therein having a receiving opening on a cut; a peripheral flow swirler located between the housing and the nozzle; a diffuser associated with the housing located at the cut-off level of the suction pipe.

 The disadvantage of the prototype is that the scope of the device is limited to the removal from the cleaned surface of weakly bound particles: aerosols, flue gases and light dust. The dynamic effect of the air stream at the inlet of such a device is not sufficient for suction of caked dust, especially at a certain distance of the dusty surface from the cut of the suction pipe.

 The objective of the invention is to increase the efficiency of separation and removal of dust from surfaces to be cleaned, cost-effectiveness, ease of maintenance and expanding the scope, in particular for removing caked dust from surfaces of complex shape, for example, from electrical equipment located in cabinets.

 The task is achieved due to the fact that the device for cleaning surfaces from dust, containing a cylindrical body with a suction pipe coaxially located in it, having a suction hole in the cut, a suction device sealed to the internal cavity of the suction pipe, a peripheral flow swirl located between the body and the pipe , tightly connected to a source of compressed gas and mating with the body of the diffuser, equipped with an exhaust pipe installed inside the suction its nozzle coaxially to it having the possibility of axial movement and sealingly connected to pnevmogeneratorom impulse jet.

 This problem is solved by intensively separating dust from the surface being cleaned using a pulsed gas jet directed to the surface to be cleaned, localizing this dust from scattering it in a volume limited by a specially organized peripheral vortex gas flow around the zone of impact of the pulse jet and continuously removing suspended dust from this volume.

 The drawing shows a General view of the proposed device for cleaning from dust.

 The device consists of a cylindrical body 1 with a suction pipe 2 coaxially placed in it, having a receiving hole on a slice located between the body and the suction pipe of the peripheral flow swirl 3 and the diffuser 4 connected to the body 1. The exhaust pipe 5 is coaxially placed inside the suction pipe 2, connected to the pneumatic generator 6 of the pulsed gas jet 7. The internal cavity of the suction pipe 2 is connected to a suction device, for example, to a ventilation system (not shown). As a suction device, for example, a vacuum cleaner can be used, the exhaust device of which can simultaneously be a source of compressed air to form a vortex stream 8. A swirl of the peripheral stream 3 is connected to a source of compressed gas (not shown).

 A device for cleaning surfaces from dust works as follows.

 Gas from a source of compressed gas enters the swirl 3, which forms a peripheral vortex stream 8 at the outlet of the diffuser 4. The impulse jet 7 created by the pneumatic generator 6 periodically flows out of the exhaust pipe 5 and acts on the surface being cleaned, dust is separated from it by the dynamic pressure of the shock wave . Separated dust is localized in the rarefaction zone created by the peripheral vortex flow 8. The suspended dust from the rarefaction zone is continuously removed through the suction pipe 2.

 The proposed device provides a more effective cleaning from dust of surfaces of complex shape also due to the possibility of different orientation of the device relative to the surface being cleaned. The increased intensity of the impulse jet in comparison with a stationary gas jet of equivalent flow rate ensures reliable separation of packed dust from the surface. To create pulsed jets, a significantly lower mass-average gas flow rate is required compared to a stationary jet of similar intensity, which reduces the required power of the compressed gas source to power the pneumatic generator. This circumstance simultaneously reduces the power requirements of the suction device. The localization of suspended dust in the suction zone by means of a vortex flow eliminates its ingress into the atmosphere of the working zone, preventing secondary dusting of equipment and improving working conditions.

Sources of information
1. USSR author's certificate N 288841, cl. A 47 L 5/16, 1968.

 2. RF patent N 2023228, MKI F 28 G 1/16, 1994.

 3. RF patent N 2046258, MKI F 24 F 7/06, 1995 - prototype.

Claims (3)

 1. A device for cleaning surfaces from dust, comprising a cylindrical body with a suction pipe coaxially located in it having a receiving hole in the cut, a suction device sealed to the internal cavity of the suction pipe, a peripheral flow swirl located between the body and the pipe, hermetically connected to the source compressed gas and a diffuser associated with the housing, characterized in that an exhaust pipe having an optionally installed exhaust coaxially to the inside of the suction pipe zhnosti axially displaceable and sealingly connected to pnevmogeneratorom impulse jet.  2. The device according to claim 1, characterized in that the exhaust pipe is equipped with a replaceable tip, allowing you to vary the transverse dimensions and shape of the pulse jet.  3. The device according to claim 1, characterized in that the suction pipe of the device is connected, for example, to the suction unit of the vacuum cleaner, and the swirler of the peripheral flow is connected to its exhaust unit.