SU1489715A1 - Dust collecting nozzle - Google Patents

Description

The invention relates to structural elements of vacuum cleaners and can be used in the building materials industry, metallurgical, food and other sectors of the economy. The purpose of the invention is to increase productivity. The vacuum nozzle contains a body 2 connected by a suction nozzle 1 having a suction slot 3. On the opposite sides of the body 2, the front 4 and rear 5 shelves are located along the movement of the nozzle.

The casing 2 is connected with a wedge-shaped scraper 6. The front shelf 4 has the shape of an arc, with its concave side facing the shelf 5. The slit 3 is located between the front shelf 4 and the scraper 6, while the nozzle 7, the back side of the scraper 6, is in the shape of an arc mating with the arc front shelf 4, Front face 8 of the scraper 6 is located at an angle of 10-20 to its face 9 and has a length of 20-25 mm. 2 Il.

»_ $ C„ „1489715 A1

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The invention relates to the structural elements of the vacuum plants and can be used in the building materials industry, metallurgy, food and other sectors of the national economy, using vacuum systems for vacuum cleaning.

The purpose of the invention is to increase productivity.

FIG. 1 shows the nozzles, side view; in fig. 2 shows view A in FIG.

The vacuuming nozzle contains a body 2 connected to the suction nozzle 1, having a suction slot 3 located on opposite sides of the nozzle front 4 and rear 5 shelves and connected to the body 2 wedge-shaped sk-β β side 6,

The front shelf 4 has the shape of an arc facing its concave side toward shelf 5. Slot 3 is located between front shelf 4 and scraper 6. Rear 25, along the movement of the nozzle, edge 7 of scraper 6 has the shape of an arc ;: mating with the front shelf arch 4 The front face of the nozzle 8 of the scraper b along the movement of the nozzle is located at an angle of 10-20 to its face 9, interacting with the surface to be treated, and has a length of 20-25 mm. Nozzles mounted on the wheels 10. On the scraper 6 are stiffeners 11, supporting the bottom of the cover 12 35

housing 2. The specified angle (10-20) is of particular importance for cleaning residual material or a layer of material that does not exceed the height of the scraper. Then, when moving the nozzle forward, in the frontal direction, in front of the nozzle, a roller of the removed material is formed, which, if the angle exceeds 20 ,, cannot “climb” along the scraper to the suction slit, because for a bulk material that is in a moving state, the angles of the natural the slope is less than the milking material that is in a calm

toyanya and make up depending on the type of material 10-20, the material slides off the scraper.,

If the angle is less than 10, then this makes it easier to lift the material along the scraper, 55

insert it into the material to be cleaned, but in this case (with a skin size of 20-25 mm and an angle of less than 10)

the thickness becomes insufficient, considering the abrasive wear of the scraper from the floor and from the side of the material being harvested. The scraper, getting used up, is thinned * », the nozzles collapses forward, as a result of which the spontaneous flow of material into the nozzles stops (when the angle of inclination of the plane of the suction slit is equal to the angle of repose of the material).

A sharper scraper becomes more intensely dull, wets out, and may bend when it strikes foreign objects in the cleaning zone, for example, a conveyor rack. In addition, an angle of less than 10 ° (with a length of 20-25 mm) gives an insufficient thickness of the scraper (less than 5 mm), which, when running the back edge of the scraper along a gentle arc (with a radius exceeding the thickness of the scraper, which reduces the hydraulic resistance) conditions for unsatisfactory shedding of material into the suction gap (in this case, the plane of the suction gap is inclined towards the material being harvested, and if the angle of this slope is equal to the angle of repose of the material, shedding of the material into the nozzles stops). When executing the back edge of the scraper in a steeper arc (with a radius comparable to ^: with thickness: the scraper), its hydraulic resistance increases - the air drawn from under the rear shelf is forced to make a steeper turn, which results in an increase in hydraulic losses.

The length of the face 9 within 20-25 mm is selected on the basis of the allowable distance from the suction slit to the retractable surface in order to provide the volume of material from the front face of the scraper with a suction air flow.

An increase in the 8 side of the dane over 25 mm (especially at an angle of 10 °) makes it difficult for the nozzle to move vertically in the array of material to be cleaned, and a decrease of less than 20 mm (especially at an inclination angle of 20) creates conditions for the scraper to slide out of the material when the nozzle moves vertically, . at small angles of repose of the material and its low density, the prism of the material above the scraper has a small mass and movement of the operator, intensifying the material debris5

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la in the nozzles, can lead to the release of the scraper and the suction gap of the mass of material, which will reduce the cleaning performance,

A narrow (less than 20 mm) and thin (with an angle of less than 10 °) scraper may not have sufficient strength to maintain its shape, for example, in case of accidental impacts on non-, θ flatnesses and when embedded into the mass of the removed material and moving in it . It will deform, bend, twist, thereby significantly changing the configuration of the suction slot for receiving the material and the aerodynamic path for suction of clean air, which will significantly worsen the conditions for spontaneous supply of material (perhaps 2θ even complete overlapping suction gap) and increase the hydraulic resistance of the nozzle.

Nozzles works as follows. 25

On wheels 10 nozzles are fed to a pile of material to be harvested and immersed in it with a scraper b. The material, showered under its own weight and variable movements of the nozzle right-left, etc., produced by the operator, enters slot 3. The air flow entering under the rear shelf 5 picks up the material and carries it through the housing 2 to the suction port 1. The stiffening ribs 11 prevent the material from punching the lower part of the cover 12 and the change in the geometry of the suction piece.

When cleaning a thin layer of material, it is trimmed with a scraper 6, moves through it, is picked up by the air flow entering the suction gap 3, and is carried away to the nozzles.

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This design of the nozzle allows you to use your own weight of the harvested material for its entry into the suction gap of the nozzle: when cleaning large quantities of spillage, the material that is cut by the scraper falls down into the suction gap.

Claims (1)

Claim A vacuum nozzle containing a housing having a suction slot located on opposite sides of the housing along the front and rear shelves moving along the surface of the nozzle and a wedge-shaped scraper connected to the housing, has the form the arc, with the concave side facing the rear shelf, the suction slot is placed between the front shelf and the scraper, the rear face of the scraper along the movement of the nozzle has the shape of an arc mating with the arc of the front shelf, and the front face of the scraper, while moving the nozzle, is located at an angle of 10-20 to its face, interacting with the treated surface, and has a length of 20-25 mm. 1489715