RU2628384C2 - Device for creating and cleaning air flow from impurities - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: device for creating and cleaning an air flow from impurities contains a settling chamber with inlet and outlet nozzles, a counterflow louvered dust collector with an outlet nozzle, a removal device and a separation wall, a cross flow fan located between the settling chamber and the dust remover and having a blade wheel, a curvilinear and rectilinear parts of the housing. The designed louvered rectilinear part of the housing with the separation wall of the fan forms its outlet channel, the inlet window of the fan is located in the outlet nozzle of the settling chamber, the separation wall is part of the wall separating the settling chamber from the dust collector, and the outlet channel of the fan is connected with a discharge countercurrent louvered nozzle. The rectilinear louvered part of the fan housing with respect to its curvilinear part is turned towards the settling chamber, the discharge louvered countercurrent nozzle has a convergent shape, its outer wall is made louvered, parallel to the rectilinear part of the fan housing and is displaced relative to the settling chamber, and the separation partition of the dust collector chamber is made louvered.

EFFECT: increased cleanliness of the air flow and reduced energy spent on cleaning the air from impurities.

2 cl, 1 dwg

Description

The invention relates to devices for creating and cleaning the air flow from impurities, for example, in pneumatic systems of grain cleaning machines, pneumatic conveying systems for bulk fine-grained materials, in aspiration systems.

Known cyclones for separation from the air stream of light impurities [1], consisting of a housing having a cylindrical shape in the upper part and conical in the lower part, a nozzle for introducing air mixtures, outlet nozzles for removing precipitated impurities and purified air. A rather high degree of air purification is inherent in cyclones, however, their significant disadvantages are high aerodynamic drag (700 ... 1500 Pa) and low throughput (for example, a cyclone cyclone cyclone with a cylindrical diameter of 750 mm has a throughput of 1800 m ³ / h), as a result of which grouped into batteries, and this greatly complicates the design of the system. In addition, to withdraw the separated impurities from the cyclones, hermetic lock gates with a drive mechanism are used, which also leads to a complication of the system device.

A device for separating light impurities from the air stream [2], containing an inlet and outlet nozzles, a primary cleaning stage, having an air purifier and a primary sedimentary chamber, the working channel of the air purifier is formed by a spiral cone and a curved louvre grill located inside the housing, and a secondary cleaning stage consisting of a louvered air cleaner with an inlet pipe and a secondary sedimentary chamber, while the inlet part of the secondary stage air cleaner is connected to the first hydrochloric chamber, and its downstream part - with a secondary, and provided with a recirculation channel having a common wall with an adjacent primary chamber sedimentary

The disadvantage of this device is due to the high aerodynamic drag and, consequently, the increased energy consumption for cleaning the air flow.

It is also known a device for creating and cleaning the air flow from impurities [3], containing a sedimentary chamber with inlet and outlet nozzles and an outlet device, a countercurrent louver dust collector with an outlet nozzle, an outlet device and a separation wall, a diametrical fan [4] located between the sedimentary chamber and dust collector. In this case, the fan inlet window is located in the outlet pipe of the sedimentary chamber, and the rectilinear (end) part of the base of the casing is louvered and together with the dividing wall form the fan outlet channel having a constant cross-sectional area. The output channel is connected to a discharge louver nozzle, which also has a constant cross-sectional area. The dividing wall of the fan is at the same time part of the wall separating the sedimentary chamber from the dust collector, and also separates the air flow entering the fan from the flow coming out of it. The sedimentation chamber of the device is intended for preliminary air purification, and the dust collector is intended for its final purification.

In terms of the set of essential features and the technological process, a device for creating and cleaning an air stream from impurities to the closest declared device, and it is taken as a prototype.

The prototype device is compact in design and at the same time creates and cleans the air stream from impurities. However, the device has such disadvantages as insufficient purification of the air flow and increased energy consumption. This is due to the fact that the louvered air purifier formed by the exhaust duct of the fan and the discharge pipe has a constant transverse cross-sectional area, and the separation wall of the sedimentary chamber is solid. At the same time, air with impurity residues, which are deposited in it and are discharged outside the device, enters the lower part of the chamber from the discharge louvre nozzle. Due to the fact that the dividing wall is continuous, a vortex field rotating in the clockwise direction is formed in the lower part of the dust collector - air circulation with the remains of light impurities and impurities carried away by the vortex field from the area of the dust collector outlet device. With this flow of air in the lower part of the chamber of the dust collector, unproductive energy consumption increases and the degree of purification of the air stream from impurities decreases.

The problem that needs to be solved is to eliminate the disadvantages inherent in the adopted for the prototype device, i.e. in reducing the energy spent on cleaning the air from impurities, and increasing the degree of purification of the air flow.

The technical result is achieved due to the fact that the device for creating and cleaning the air flow from impurities contains a sedimentary chamber with inlet and outlet nozzles, a countercurrent louvered dust collector with an outlet nozzle, an output device and a separation wall, a diametrical fan located between the sediment chamber and the dust remover and having blade wheel, curvilinear and rectilinear parts of the casing, while the louvre rectilinear part of the casing with a dividing wall of the fan the outlet channel of the fan is located in the outlet pipe of the sedimentation chamber, the dividing wall is part of the wall separating the sedimentary chamber from the dust collector, and the outlet channel of the fan is connected to a discharge countercurrent louver located in the dust collector, while the rectilinear louvered part of the diameter fan casing is relatively the curved part is turned towards the sedimentation chamber and has rotatable shutters, a discharge louvered countercurrent pipe made convergent to its outer wall is formed tambour parallel straight portion of the fan case and biased relative thereto to sediment chamber, whereby between the outer wall and the housing part formed by the straight lead-out box, the dust collector chamber partition wall formed tambour. A rotatable shutter is located on the outlet edge of the outer wall of the discharge pipe, and the dust separator dividing wall has shutters.

A diagram of a device for creating and cleaning the air flow from impurities is shown in the drawing. The device has a countercurrent louvered dust collector 1 with a dividing louvered partition 2 dividing its chamber into upper 3 and lower 4 parts, and an outlet pipe 5, a sediment chamber 6 with an inlet 7 and an outlet 8 nozzles, a diametrical fan 9 located between the dust collector and the sediment chamber, the inlet window 10 (abs) which is located in the outlet pipe of the sedimentary chamber. The rectilinear part 11 of the fan casing (segment ab) relative to its curved part 12 (segment bs) is turned towards the sedimentation chamber and, together with the dividing wall 13 separating the dust collector from the sedimentation chamber, forms the outlet channel 14 of the fan. An outlet confluent louvered nozzle 15 with an outlet cross section 16 is connected to the output channel. The outer louvered wall 17 of the discharge nozzle is parallel to the rectilinear part 11 of the casing and offset relative to it to the sedimentation chamber, as a result of which an outlet window 18 is formed between the wall and the rectilinear part of the casing, a rotatable flapper 19 is mounted to the edge of the outer wall 19. In the lower part of the sedimentation chamber and the dust collector, output devices 20 and 21 are respectively installed.

In the device for creating and cleaning the air flow from impurities, the use of a diametrical fan with a dividing wall having shutters is determined by the fact that with this design the aerodynamic characteristic of the fan is significantly improved.

A device for creating and cleaning the air flow from light impurities works as follows. The air flow created by the diametrical fan 9, together with the impurities through the inlet pipe 7, enters the sedimentation chamber 6, in which the preliminary separation of impurity particles that have the highest critical speed takes place. This fraction of impurities is removed from the chamber by the output device 20. The air flow with the remaining dust-like impurity, having made a V-shaped movement in the chamber, is supplied to the wheel through the fan inlet window 10, its flow part passes and is diverted to the fan casing. In this case, particles of impurities by centrifugal force arising from the impact of the wheel blades on the air-dust flow are discharged to the curvilinear part 12 of the fan casing, from it they enter the rectilinear part 11 of the casing, with which through the outlet window 18 they are discharged into the chamber of the dust collector 1.

In this case, the air flow purified from impurities through the louvered rectilinear part of the fan casing is discharged to the upper part 3 of the dust collector chamber.

Another part of the dusty air stream from the outlet channel 14 of the fan enters the discharge confusor louvre channel 15, is cleaned by its louvered outer wall 17 and, like the air stream leaving the channel through its outlet section 16, enters the chamber of the dust collector. Impurities separated by the discharge louvre nozzle through its outlet section 16 are discharged into the dust collector chamber.

In the lower part 4 of the chamber of the dust collector, the air flow, having made a V-shaped movement and passing through the holes of the dividing louvered partition 2, is finally cleaned of dust particles that are deposited in the chamber of the dust collector. The air stream cleaned in the device is discharged by the outlet pipe 5 of the dust collector, and the impurities deposited in it by the exhaust device 21.

Highly effective cleaning of the air flow is achieved by separating the impurities by a diametrical fan and discharging them into the dust collector chamber through the outlet window, bypassing the discharge louvre nozzle, as well as confusing the nozzle and the exhaust duct of the fan and making their walls adjacent to the dust collector louvered. In addition, a high degree of separation of impurities from the air flow is determined by adjusting the position of the blinds of the rectilinear part of the fan casing and the rotatable damper mounted on the end edge of the louvered wall of the discharge pipe, as well as due to the use of a separation louver wall in the dust collector chamber.

Reducing the energy consumed by the device for creating and cleaning the air flow from impurities is achieved by eliminating the vortex field in the lower part of the dust collector chamber by using a dividing louvre wall.

Information sources

1. Zuev F.G. Pneumatic transportation at grain processing enterprises. - M .: "Kolos", 1976. - 344 p.

2. USSR author's certificate No. 430870, cl. B01D 45/04, 1974.

3. RF patent No. 2294235, IPC B01D 45/04, 2007. - prototype.

4. Sychugov N.P. Fans - Kirov: GIPP "Vyatka", 2000. - 228 p.

Claims (2)

1. A device for creating and cleaning the air flow from impurities, containing a sedimentary chamber with inlet and outlet nozzles, a countercurrent louvre dust collector with an outlet nozzle, an output device and a separation wall, a diametrical fan located between the sedimentary chamber and the dust remover and having a blade wheel, curved and rectilinear part of the casing, while the louvre rectilinear part of the casing with a dividing wall of the fan forms its outlet channel, the inlet window of the valve the ora is located in the outlet pipe of the sedimentary chamber, the dividing wall is part of the wall separating the sedimentary chamber from the dust collector, and the outlet channel of the fan is connected to the discharge counter-flow louver located in the dust collector, characterized in that the rectilinear louvered part of the fan casing is turned to the side relative to its curvilinear part sedimentary chamber, the discharge louvre countercurrent nozzle has a confuser shape, its outer wall is made of a louvre, parallel flax of the rectilinear part of the fan casing and shifted relative to it to the sedimentary chamber, and the dividing wall of the chamber of the dust collector is made louvered. 2. A device for creating and cleaning the air flow from impurities according to claim 1, characterized in that the louvers of the rectilinear part of the fan casing are made rotatable, and a rotatable damper is installed on the input edge of the inner wall of the discharge countercurrent pipe.

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