RU7899U1 - DEVICE FOR CLEANING AIR FROM DUST - Google Patents

Description

DEVICE FOR DUST AIR CLEANING

The utility model relates to devices for cleaning dust from air sucked from the shelters of metalworking machines, mainly grinding, peeling and grinding, and can be used in mechanical engineering and any other industries where these machines are used.

There are various devices for cleaning dust from the air drawn from the working area of metalworking machines, and these devices include mainly a fan, a cyclone and a filter (A.F. Vlasov. Removing dust and chips from cutting tools, M .: Mashinostroenie, 1982, p. 180-187).

Closest to the proposed device in technical essence is the known ZIL-900M dust-cleaning device for air, comprising a vertical housing consisting of cylindrical shells and a tangential nozzle for introducing dusty gas, an annular chamber located inside the housing, a bag filter and a dust receiving bin and attached to the upper part of the case there is a fan with an impeller and a coaxial case (SK-8 construction catalog. Engineering equipment of buildings and structures. Section 81: Equipment for systems air conditioning, ventilation and utilization equipment, M .: VPIINTPI Gosstroy of the USSR, 1990, p. 39-41).

The known device provides high efficiency air purification. However, due to dynamic loads that occur during fan operation,

MPK6 at 01 D 50/00

located at the top of the device, the device case must be a fairly massive structure, as a result of which the shells of which it consists are cast or welded and interconnected using flanges. The massive structure with the inevitable vibrations of the fan creates a high noise level, which increases with increasing fan performance, so that it is actually possible to use known devices for servicing no more than one machine.

To ensure effective air purification using a lightweight design, a device for cleaning dust from air is proposed, comprising a vertical housing consisting of cylindrical shells with a tangential nozzle for introducing dusty gas, an annular chamber located inside the housing, a bag filter and a dust bin and attached to the upper part a fan case with an impeller coaxial to the case, characterized in that the fan impeller is made of an alloy based on aluminum, Nena rolled from a thin sheet having flanged ends, connected by cable ties.

The technical result arising from the use of the proposed design is that the use of an impeller made of light alloy reduces the dynamic loads on the housing, which, in turn, makes it possible to produce shell shells using a simpler, less material- and energy-intensive technology - rolling from a thin sheet with flanging of the ends for their subsequent connection using bandages. Due to this, the mass of the device as a whole is reduced and it becomes possible to manufacture devices in small batches of various sizes, easily adaptable to specific

the requirements of specific customers, taking into account the need to service various quantities of machines.

In FIG. 1 and 2 depict a sectional variants of a specific embodiment of the proposed design.

In accordance with FIG. 1 the device includes a housing consisting of an upper shell 1 and a lower shell 2, a cover 3, a bottom 4, a bag filter mounted in a cover 3, consisting of a filter housing 5, sleeves 6, a lower filter cover 7, a grill 8, a device for shaking sleeves structures (not shown in FIG. 1; see, for example, the book cited above: A.F. Vlasov. Removing dust and chips from cutting tools, M .: Mashinostroenie, 1982, pp. 180-187) and adapter pipe 9, and an exhaust fan 10 connected to the pipe 9 with an impeller made of light aluminum alloy and a motor 11. In the apparatus shown in FIG. 1, a fan of the company PLYMOVENT AB (Sweden) of the FS, FUK or FUA series was used, for example, FUA-3000, manufactured in Russia according to the drawings of the SovPlim joint venture; it is also possible to use similar fans from LHG KANALFLAKT AB (Sweden) of the MZ series and others. The flanged ends of the shells are interconnected, with a cover 3 and a bottom 4 using bandages 12. In the upper part of the upper shell 1 there is a tangential pipe 13 for introducing dusty gas. Inside the lower shell 2 is a conical hopper 14 for receiving dust, the upper flanged end of which is located between the ends of the upper and lower shells. In the lower part of the lower shell 2 there is a window for accommodating a retractable dust collector 15.

The device shown in FIG. 1, works as follows. Dusty air enters the shell 1 through the tangential pipe 13 and moves in a spiral in the annular chamber between the shell 1 and the filter housing 5. As a result of centrifugal force, large dust particles are thrown to the walls of the shell and fall down. The air then enters the sleeves 6, where it is cleaned of finer dust, through the openings of the grill 8 and the pipe 9 enters the fan 10 and is thrown out.

In accordance with FIG. 2, the device includes a housing consisting of four cylindrical shells 1, 2, 3 and 4 and a bottom 5, a bag filter located inside the shell 1, consisting of sleeves 6, a lower filter cover 7, a grill 8, a device for shaking sleeves of a conventional design (in FIG. (2 not shown) and adapter pipe 9, and an exhaust fan 10 connected to the pipe 9 with an aluminum alloy impeller and an electric motor 11. In the device shown in FIG. 2, a fan similar to that used in the device shown in FIG. 1. The flanged ends of the shells are interconnected, with the bottom 4 and the adapter pipe 9 using bandages 12. The bottom cover of the filter 7 is located in the connection of the shells 1 and 2, and the flanged end of the cone 13 is located in the same connection. A tangential pipe is located in the shell 2 14 for introducing dusty gas. Inside the shell 3 there is a conical hopper 15 for receiving dust, the upper flanged end of which is located between the ends of the shells 2 and 3. In the shell 4 there is a window for accommodating a movable dust collector 16.

The device shown in FIG. 2 differs from that shown in FIG. 1 in that it allows for the same housing diameter to accommodate a larger number

filter bags, i.e. increase the filtering surface and the degree of purification of air from fine fractions. The device operates similarly to the device shown in FIG. 1, with the difference that air is cleaned of large dust particles in the annular chamber between the shell 2 and the cone 13.

Claims (1)

A device for cleaning air from dust, containing a vertical housing consisting of cylindrical shells with a tangential nozzle for introducing dusty gas, an annular chamber located inside the housing, a bag filter and a dust bin and attached to the upper part of the fan housing with an impeller coaxial to the housing, characterized the fact that the impeller of the fan is made of an alloy based on aluminum, the shells of the casing are made of rolled from a thin sheet with flanged ends connected with dazhey.