SU961663A1 - Vacuum cleaner - Google Patents

Description

(54) VACUUM CLEANER

one

The invention relates to a cleaning technique and can be, in particular, applied to the cleaning of industrial premises from fluff and dust.

A vacuum cleaner is known that contains a filter chamber mounted in a housing, a fan with inlet and outlet channels, a fan drive made in the form of a turbine housed on housing B with a casing having connections for injecting compressed air and exhausting air, and nozzles for sucking dusty air. one.

A known vacuum cleaner has a low productivity due to the ingress of dust and debris on the bottom of the fan with sucked air.

The purpose of the invention is to increase productivity.

This goal is achieved by the fact that in a vacuum cleaner that contains a filter chamber mounted in a housing, a fan with inlet and outlet channels, the fan drives, made in the form of a turbine, placed on the housing in a housing with

compressed air and air release, and nozzles for suction of dusty air, a filter chamber is installed between the nozzle for suction of dusty air and the inlet duct of the fan,

 for air injection is a nozzle, and the air outlet is located p the outlet channel of the fan coaxially with it, and the outlet of the air outlet is directed

10 towards the exit of the air flow from the fan.

In addition, the vacuum cleaner is mounted on a trolley.

The drawing shows a vacuum cleaner, cut.

5 The vacuum cleaner contains filter chamber 2 with filter 3 mounted in housing 1, fan 4 with inlet 5 and outlet 6 channels, a fan drive made in the form of a turbine 7 placed on housing 1 in housing 8 with a connection 9 for injecting compressed air and an air outlet 10, and nozzles 11 for suctioning dusty air. Filter chamber 2 installed

between the nozzle 1 1 and the inlet 5 of the fan 4. The nozzle 9 for injecting compressed air is a nozzle, and the fo nozzle for venting is placed in the outlet channel 6 of the fan 4 coaxially with it, the outlet of the nozzle 10 for exhausting air is directed towards the exit of the air flow from the fan 4.

The pipe 9 is connected to a source of compressed air (for example, a balloon 12 or a stationary air network) through a pipe 13 on which there is a compressed air regulator 14. The vacuum cleaner is mounted on the trolley 15.

The vacuum cleaner works as follows. From a source of compressed air (for example, a cylinder 12), air through line 13 through supply regulator 14 and pipe 9 is fed into casing 8 of turbine 7, affecting its blades and causing it to rotate. From the turbine 7, rotation is transmitted through the transmission to the fan 4, which creates a vacuum in the nozzle 11 of the vacuum cleaner, through which the air to be cleaned enters. Dusty air passes through the filter chamber 2 and filter 3. At the same time, dust accumulates on filter 3, and purified air through channel 5 enters the cavity of fan 4 and is further emitted into the atmosphere through outlet channel 6. Simultaneously with purified air, channel 6 is fed through 10 enters the air flow from the turbine 7, which, after acting on the blades of the turbine 7, still has a high speed and has a high pressure, and the speed and pressure of this air flow exceed the same parameters of the purified air supplied to The outlet channel 6 of the fan 4 from the cavity of the filter chamber 2, and the direction of movement of both air flow coincides. In the output channel 6 of the fan 4, an ejector effect arises, since the air flow, coming out of the casing 8 of the turbine 7, gives a part of its kinetic energy to the flow of purified air, increasing its speed. This contributes to a decrease in pressure at B1 at the inlet of their fan 4 and, in turn, reduces the pressure at the inlet to the fan.

which increases the degree of dilution of air in the filter chamber 2. The pressure difference between the cavity of the filter chamber 2 and the atmosphere increases, the volume of air passing through the vacuum cleaner per unit of time increases.

The proposed vacuum cleaner can be used in rooms with increased fire and explosion hazards, for example, in tape, carding, spinning workshops.

textile enterprises for cleaning textile dust consisting of scraps of fibers, hairs, down, mineral and other impurities and having the ability to easily ignite. Installation

In the turbine vacuum cleaner and placing the air outlet from the fan outlet channel, the efficiency of the vacuum cleaner can be increased without increasing the power consumed by the fan. In addition, the presence of a compressed feed regulator

air allows you to use it most efficiently and economically.

Claims (2)

1. Vacuum cleaner containing filter chamber mounted in the housing, fan with inlet and outlet channels, fan drive, made in the form of a turbine placed on the housing in the casing with nozzles for injecting compressed air and exhausting air, and nozzles for sucking dusty air characterized in that, in order to increase productivity, a filter chamber is installed between the nozzle for suction of dusty air and the inlet channel the fan, the air inlet is a nozzle, and the air outlet is placed coaxially with it in the outlet channel of the fan, and the outlet of the air inlet air is directed towards the exit of the air flow from the fan. 2. Vacuum cleaner according to claim 1, characterized in that it is mounted on a trolley. Sources of information taken into account in the examination 1. US patent No. 3328827, CL. 15-334, 1967. /// / 3 2I