RU2009324C1 - Nozzle of pneumatic peat picker - Google Patents

Abstract

FIELD: peat mining. SUBSTANCE: nozzle consists of body 1 with lower plate 2 and canopy 3 above inlet. Edge of lower plate is installed with clearance a relative to plane of inlet opening over entire nozzle width. Clearance size is determined to preclude air inleakage under edge of nozzle lower plate. Nozzle body is connected with air duct of peat picker. EFFECT: higher picking capacity of milled peat due to extended active zone of nozzle suction area. 3 dwg

Description

 The invention relates to the extraction of milled peat by pneumatic machines.

 A nozzle of a pneumatic peat harvesting machine is known, including a housing with a visor, scrapers are attached to the housing by means of traction and hinges, and vertical ribs are installed in the inlet under the visor [1].

 The presence of ribs contributes to the accumulation of peat fibers on them, especially a low degree of decomposition. In addition, the presence of scrapers leads to milling, as well as the capture of wood inclusions that are in the spread, which, in combination with ribs, contributes to clogging of the nozzle inlet and, as a result, leads to a decrease in peat charges.

 Known nozzle pneumatic peat harvesting machine, comprising a housing with a bottom sheet and a visor above the inlet [2].

 With this design of the nozzle, the active zone of the suction torch is small, since there are large values of the air velocity. With an increase in the working speed of the peat harvesting machine, the exposure time to the peat particles of the air flow decreases with a speed sufficient to lift them from the surface of the reservoir and transport them in suspension.

 The increase in the length of the visor in order to expand the active zone of the suction torch leads to an increase in the hydraulic resistance of the nozzle and to a deterioration in the copying of the surface irregularities by the nozzle.

 The aim of the invention is to increase the collection of milled peat by increasing the active zone of the suction nozzle plume.

 This goal is achieved by the fact that in the nozzle of a pneumatic peat harvester, which includes a housing with a bottom sheet and a visor above the inlet, the edge of the bottom sheet is set with a gap relative to the plane of the inlet over the entire width of the nozzle.

 In FIG. 1 shows a nozzle, side view; in FIG. 2 is a section along AA in FIG. 1; in FIG. 3 - nozzle with air recirculation, side view.

 The nozzle of a pneumatic peat harvester consists of a housing 1 with a bottom sheet 2 and a visor 3 above the inlet. The edge of the bottom sheet is installed with a gap "a" relative to the plane of the inlet over the entire width of the nozzle. The nozzle body 1 is connected to an air duct of a peat harvester (not shown). The proposed device can be used in a nozzle with air recirculation (Fig. 3).

 The nozzle operates as follows. The nozzle body 1 is supported by the edge of the lower sheet 2 on the milled peat spread. When moving the peat harvesting machine due to the vacuum created by the fan of the machine, the air flow passes under the visor 3 and, acting on the particles of the milled peat in the spread, brings them into a balanced state. The peat harvest mixture is sucked into the nozzle body and enters the cyclone through the air duct, in which peat is separated from the air.

 A peat harvester equipped with the proposed nozzle was tested in the field on lowland deposits with a decomposition degree of R = 20-25%, while the average peat moisture in the spread was ω = 48.2%, and the clean air velocity at the nozzle inlet was v = 40.0 m /with.

 When the nozzle operates without a gap between the edge of the lower sheet of its casing and the plane of the inlet, the peat charges are lower due to the limited area spread out, which is exposed to the air flow at high speed. With a large gap, the edge of the lower sheet does not lie adjacent to the spread, a gap appears in which part of the intake air rushes, and the speed of the main flow acting on the spread of peat decreases. With a snug fit of the edge of the bottom sheet of the casing to the spread, optimal conditions are created for the capture of peat particles by the air flow, due to an increase in the active zone of the suction torch and a decrease in the mechanical effect on the peat spread.

 The presence of a gap on the inlet side provides an increase in the active zone of the suction torch without increasing the length of the visor.

 The gap across the entire width of the nozzle provides the same conditions for the capture of peat particles by air flow on the cleaned area of the spread. (56) Copyright certificate of the USSR N 877030, cl. K 21 C 49/00, 1981.

 Operation manual for pneumatic BPF combines. - M.: Energy, 1964, p. nineteen.

Claims (1)

 Nozzle of a pneumatic peat harvesting machine, comprising a body with a bottom sheet and a visor above the inlet, characterized in that, in order to increase the collection of milled peat by increasing the active zone of the suction torch, the edge of the bottom sheet is set with a gap relative to the plane of the inlet over the entire width of the nozzle.

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