SU1510888A1 - Dust collector for cleaning gases from dust - Google Patents

Abstract

The invention relates to dust cleaning equipment, namely, devices for dry cleaning of filtration, and can be used in the chemical and other industries. Its use will improve the efficiency of dust collection and reduce material consumption. A dust collector for cleaning gases from dust, comprising a housing with filtering conical sleeves placed between the upper and lower gratings, provided with an additional conical sleeve mounted along the body axis, attached to the lower grate by a large base, a discharge chamber with an ejector attached to the gas supply nozzle, and a central nozzle installed along the axis of the housing under the lower grille, whose diameter is equal to the diameter of the larger base of the additional hose, and the ejector is installed above the smaller base to complement A hose sleeve, and knee-shaped sleeves of the sleeves are attached to a hopper having a diameter smaller than that of the case. 2 Il.

Description

The invention relates to dust-cleaning equipment, namely, devices for dry cleaning of gases from dust particles by a filtration method, and can be used in the chemical and other industries.

The aim of the invention is to increase the efficiency of dust collection from the recycle part of the gas and to reduce the material consumption by increasing the compactness of the dust collector.

FIG. 1 schematically shows a dust collector, an incision; in fig. 2 shows section A-A in FIG. one.

The dust collector consists of a housing 1 with gas supply nozzles 2 and a clean gas outlet 3. A gas supply nozzle 2 is launched inside the housing 1. Inside the housing 1 on the tube grids, the upper 4 and lower 5 are fixed conical filter sleeves b, ending with knee-shaped tangential nozzles 7. Dust collector

provided with an additional sleeve 8 installed on its axis, the larger base 9 of which is fixed on the lower hose grill 5, and the smaller base 10 - on the upper hose grille 4. Above the base 10 of the sleeve 8 an ejector 11 is installed. A vacuum chamber 12 of the ejector 11 is connected through channel 13 a smaller base 10 of the sleeve 8, and the pressure line 14 - with the output end 15 of the nozzle 2 gas supply. The diameter of the hopper 16 fixed in the lower hose grille 5 is smaller than the diameter of the housing 1. The elbow-shaped nozzles 7 are connected to the holes 17 in the wall of the hopper 16. At the same time, the additional sleeve 8 is coaxially fixed to the lower hose lattice 5 with the diameter equal to the diameter of the base 9 of the sleeve 8. The hopper 16 is provided with a feeder 19 for discharging dust. Dust collector works as follows.

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The dust-laden gas passes through the nozzle 2 to the upper part of the apparatus and then to the sleeve 6. The main part of the gas passes through the filtering surface of the sleeve 6, is cleared of dust particles and is removed from the dust collector through the nozzle 3. Since the sleeves 6 narrow in the direction of movement of the gas flow, the average flow rate throughout their length is maintained significant. The resulting tangential stresses prevent dust from accumulating on the filtering surface of the sleeves 6. The dust-gas flow inside the sleeves 6 moves to the outlet elbow-shaped nozzles 7, passes them and in the bunker 16 acquires a twisted movement. In the bunker 16, due to the cyclone effect, most of the pitch deposits and the gas note goes into the sleeve 8. In the bunker 16, there is a better separation of dust from the gas than in a conventional cyclone, i.e., a thin stream is jets evenly around the perimeter of the bunker . In this case, a swirling flow is formed, which has a greater velocity at the wall of the bunker and men in the bottom zone. This causes better dust emission from the gas to be purified.

The gas flow from the hopper 16 passes into the sleeve 8 b; 1 year of the presence of an ejector 11. In this sleeve, part of the flow is also cleaned according to the described principle. Part of the gas flow, coming out of the smaller base 10 of the sleeve 8, ejects again to be cleaned. From the hopper 16, the nut is removed by the feeder 19.

B. The fact that an additional hose is provided in the dust collector, an ejekto, a size MCHbHiero bunker and a central nozzle, significantly reduces the material consumption of the device and increases the efficiency of collecting dust from the recycle part of the gas. An additional sleeve mounted on the axis of the dust collector, in combination with the ejector and the smaller bin, performs the function of a conventional filter sleeve and at the same time performs the function of the recirculation system, i.e. it filters part of the gas entering it, and the other part delivers ejector again for cleaning. All this leads to a significant reduction in the material consumption of the device. Instead of cumbersome recycling

The system in the proposed dust collector has an additional sleeve with an ejector on its upper end and uses a smaller bunker, which, along with a decrease in material consumption, improves the efficiency of collecting dust from the recycled part of the gas passing into the bunker. The best separation of dust from gas in the dust collector is explained by the uniform input of the flow to be cleaned around the entire perimeter of the hopper. When this occurs, a better formation of a swirling flow.

The efficiency of dust collection is enhanced by better organization of the swirling gas flow, and material consumption is reduced by eliminating a gas recirculation system including a cyclone, a fan and pipelines, or by eliminating a second bunker, pipelines and a channel between the hoses

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The use of the proposed dust collector in the industry allows to significantly reduce the consumption of materials of the device and increase the efficiency of dust collection.

Claims (1)

Invention Formula five Dust collector for cleaning gases from dust, comprising a housing with gas inlet and outlet nozzles, filter cone sleeves mounted on the top and bottom grates, the lower part of which is designed as knee-shaped tangential nozzles and a bunker that dust collection efficiency and material consumption reduction due to improved compactness; the dust collector is provided with an additional tapered sleeve mounted along the axis of the housing and attached to the bottom grate with a large base . 0 a vacuum chamber located above the upper grate with an ejector attached to the gas supply nozzle and a central nozzle installed along the axis of the body below the lower grate, the diameter of which is equal to the diameter of the larger base 5 additional sleeves, while the ejector is installed above the smaller base of the additional sleeves, and the elbows are attached to the bunker, the diameter of which is smaller than the diameter of the body. 12  IS TO  I N (rigging Aa 18