SU757180A1 - Air cleaning filter - Google Patents

Description

The invention relates to ventilation technology, and more specifically to the field of dry air cleaning in aspiration systems.

Filters are known. For air purification, including a housing, a cyclone, filtering elements located in the housing and a mechanism for shaking the filtering elements [1]. ’

A disadvantage of the known filters is the low efficiency of shaking filter elements with a manual drive. In addition, the need for the location of the cyclone next to the filter elements increases the dimensions of the entire device in the plan.

Known filter for air purification, comprising a housing with a hopper, filter elements placed in the housing and separating it into the upper and lower chambers, a cyclone located coaxially with the cyclone mesh cone and air duct connected at one end to the cyclone [2].

A disadvantage of the known device is the low efficiency of gas cleaning in the cyclone due to the fact that the design of the cyclone provides a shortened cone and a flattened bunker,

2

which leads to the reverse removal of dust from the bunker.

The aim of the present invention is to increase the efficiency of air purification.

This is achieved by the fact that the cyclone is installed horizontally in the bunker, and the second end of the duct is connected to the upper chamber.

In addition, the filter is equipped with a three-way valve installed on the duct.

FIG. 1 shows a longitudinal fold of the filter; see 2 is a section along A-A of FIG. one; in fig. 3 is a general view of the filter on the valve side with different valve positions.

The filter consists of a housing 1 with a hopper 2, filtering elements 3 placed in the housing and dividing it into the upper 4 and lower 5 chambers, a cyclone 6 located in a coaxial manner with the cyclone mesh cone 7 and an air duct 8 connected to the cyclone at one end. The cyclone is provided with a longitudinal slit 9 and installed horizontally in the bunker ^ the second end of the duct is connected to the upper chamber. The filter is equipped with three · duct mounted on the duct

757180

a directional valve 10 connected to a fan (not shown in the drawing). Valve 11 is installed in the valve, and the hopper is provided with a shutter 12.

The filter works as follows. Dusty air enters cyclone

6 tangentially and moves along the body in a spiral. Under the action of centrifugal forces, larger fractions of dust are separated into walls and are cut off from the air flow with the aid of a longitudinal slit bent inward 9. Air flow passing through the slits of the cone 7 changes the direction of movement by 90 °, creating inertial force for additional separation of dust. Next, the air flow through the three-way valve 10, set to position B, and the lower chamber 5 enters the filtering elements, where the secondary cleaning is carried out, and leaves 20 into the upper chamber 4. From the upper chamber, fresh air returns to the valve and passes to the fan . Periodically, from the pressure sensor (not shown) and with the aid of a drive, the valve flap 11 is in position B and the air flow is directed to the upper chamber 4, as a result of which a pressure pulse is generated on the fabric of filter elements from the reverse side, There is a clap and shaking. Then through the fabric of filter elements: air enters the lower chamber 5 and, further, through the valve 10 to the fan. After the shaking cycle, the valve flap 11 for a short period automatically switches to the position D and the air from the cyclone 6 passes directly to the fan, bypassing the fabric of the elements. This dd contributes to the settling of dust in the bunker. After the settling cycle, the valve flap returns to its initial position.

Installing a horizontal cyclone with a cone-separator built into the bunker increases the efficiency of pre-cleaning and reduces the size of the unit, and the air distribution system after the cyclone with a three-way valve equipped with an electric drive ensures efficient filter regeneration.

The cleaning efficiency of the first stage and the efficiency of regeneration provides a decrease in filter resistance and, consequently, increases the performance of the device, and reducing the size of the filter saves production space.

Claims (2)

Claim 1. Filter for air purification, including a housing with a hopper, filter elements placed in the box. pusa and separating it into upper and lower chambers, a cyclone, a mesh cone located coaxially with a cyclone and. an air duct connected at one end to a cyclone, characterized in that, in order to increase the efficiency of air purification, the cyclone is mounted horizontally in a bunker, and the second end of the duct is connected to the upper chamber. 2. Filter by π. 1, characterized in that it is provided with a three-way valve installed on the duct.