SU1678307A1 - Vacuum cleaner - Google Patents

Abstract

The invention relates to cleaning equipment, in particular to vacuum cleaners. The purpose of the invention is to reduce energy consumption and ensure environmentally clean operation of the device. The vacuum cleaner contains a cylindrical housing 1, a reflective umbrella 2, a dust collector 3, located under the reflective umbrella 2, a blower 4 air located above the reflective umbrella 2 in a mesh housing filter 5, a suction channel 6 and a discharge channel 7. one end connected to the blower 4, and at the other end has a working gap and an annular channel, a toroidal vortex chamber 8. The suction channel 6 is made of two vertical coaxially mounted nozzles 9 and 10, the top 9 of which is formed by the inner wall of the dust collector The rim 3 has an annular edge bent to the side of the dust collector 3, which forms a circular channel with a reflective umbrella 2. The end of the lower nozzle 10 facing the treated surface is coupled with the toroidal vortex chamber 8, and the discharge channel 7 is formed by the wall of the housing 1 and the outer wall of the dust collector 3, and its working chips are connected to the toroidal vortex chamber 8. The radius of the vortex chamber 8 is equal to half the bore diameter ra4 U-. 1Л, 1 КГЯ & about | X | 100 jtO o

Description

Blower wheel of the blower 4, average diameter of the torus of the chamber 8 is about 2.5 times the diameter of the impeller of the blower 4. The cross-sectional area of the cylindrical part of the suction channel is 1.2 cross-sectional area of the feedthrough of the impeller of the blower 4, The cross-sectional area at the annular channel exit is 2.5 square m

the cross section of the feedthrough of the impeller of the blower 4. The discharge channel 7 has a cross-sectional area equal to three plots of the cross-section of the feedthrough of the impeller of the supercharger 4. The cross-sectional area of the working gap of the blower 4 of the blower 4. Il.

The invention relates to cleaning equipment, in particular to vacuum cleaners.

The purpose of the invention is to reduce energy consumption and ensure environmentally clean operation of the device.

The drawing shows a vacuum cleaner, a general view.

The vacuum cleaner contains a cylindrical housing 1, in which a reflective umbrella 2 is placed, a dust collector 3 is placed under the umbrella 2, a blower 4 with an impeller enclosed in a screen filter casing 5 is located above the umbrella 2. A suction channel 6 is located under the reflective umbrella 2 channel 7 is connected with a toroidal vortex chamber 8 located in the lower part of the housing 1. The suction channel b is made of two vertical coaxially mounted pipes 9 and 10, the upper pipe 9 is formed by the inner wall of the dust collector 3 and It has an edge bent towards the latter, and the lower part of the internal nozzle 10 is mated with a toroidal chamber 8 with the possibility of air passing from the chamber 8 into the suction channel 6. By bent the edges, forming an annular channel 11c with a cross-sectional area of the reflective umbrella 2, the output cross-section 5z equal to 2.5 So, where So is the cross-sectional area of the entrance part of the impeller of the supercharger 4. The radius of the generatrix of the vortex chamber 8 RI is 0.5 Do, where Do is the diameter of the impeller of the supercharger 4 and the average diameter Da of the torus chambers 8 of which are equal to 2.5 Do, while the outer edge of the toroidal chamber 8 and the lower part of the housing 1 is formed by a working slot 12, whose cross section S2 is So, and the discharge channel 7 is formed by the outer wall of the dust collector 3 and the housing 1 of the vacuum cleaner The inlet rounded portion of the discharge channel 7 is located above the supercharger 4.

The cross-sectional area Si of the cylindrical part of the suction channel is 1.2 So, the area of the cross-section 5h at the outlet of the annular channel is 2.5

So, the discharge channel has a cross-sectional area S4 equal to 3 So.

In the lower part of the housing 1, beveled at an angle of 45 °, the wheels 13 are mounted, and at the level of the upper edges of the dust collector 3 in

case 1 of the vacuum cleaner is made of sealed connectors 14.

The vacuum cleaner works as follows. When the blower 4 is turned on, air enters the discharge channel 7 and then

through the working slit 12 - into the toroidal vortex chamber 8, in which the air stream twists into a vortex, which separates debris and dust from the surface being cleaned and is sucked through the nozzle 10 into the suction channel 6, from where it enters the annular channel 11. Reflected from the toroidal surface of the reflective umbrella 2, debris and dust are deposited in the dust collector 3, and air is directed to the blower 4. A strainer 5 is located on the flow path. This filter 5 cleans the air and the flow is blown back to the discharge channel 7 by the blower 4. the closed cycle of the vacuum cleaner works without ejection

exhaust air with dispersed dust out.

When the garbage collector 3 is filled with debris and dust, the upper part of the vacuum cleaner in the place of the sealed connectors 14 is removed,

and the vacuum cleaner is released.

Claims (1)

Claims of invention The vacuum cleaner comprising a cylindrical body, a reflective umbrella, a dust collector located under a reflective umbrella, an air blower with an impeller, located above a reflective umbrella in a mesh filter casing, a suction channel and a discharge channel connected to the blower at one end air, and on the other with a working gap, and an annular channel, which differs with the fact that, in order to reduce energy costs and ensure environmentally friendly work, it is equipped with a toroidal vortex chamber, the suction channel is made of two vertical coaxially mounted nozzles, the upper which is formed by the inner wall of the dust collector and has an annular edge bent away in the side of the dust collector, and the annular channel is formed by this edge and a reflective umbrella, while the end of the lower nozzle facing the treated surface , is coupled to the toroidal vortex chamber, and the discharge channel is formed by the housing wall and the outer wall of the dust collector, the working slit is connected to the toroidal vortex chamber, and the radius of the vortex chamber forming is equal to half the bore diameter of the impeller of the supercharger, the average torus diameter of the chamber is 2.5 impeller bore diameter blowers, the cross-sectional area of the cylindrical part of the suction channel is 1.2 cross-sectional area of the impeller bushing, area n cross section at the exit of the annular channel is equal to 2.5 cross-sectional area of the feedthrough of the impeller of the supercharger, the discharge channel has a cross-sectional area equal to three cross-sectional areas of the feedthrough of the impeller of the supercharger, and the cross-sectional area of the passageway impeller supercharger.