SU71581A1 - Pneumatic nozzle for collecting bulk materials from a spreading out, such as milled peat - Google Patents

Description

Pneumatic nozzles for collecting bulk materials are known.

Feature of the proposed

A pneumatic nozzle is that its front and rear steppes are made in the form of elastic loops bent backwards in relation to the movement of the nozzle. This design provides a better fit of the nozzle to the surface of the material during movement.

FIG. 1, 2, 3 the proposed pneumatic nozzle is shown in three projections; in fig. 4, 5, 6 - three variants of the nozzle tip in the section.

The inlet section of the proposed nozzle is a slot, which gradually turns into a square, and then into a circular section, without changing its area.

The wide side walls / nozzle bodies are flat and the narrow walls 2 are cylindrical surfaces of variable curvature. Round section nozzle is attached through a flexible

pipe 3 to the intake duct of the harvester. .

The tip consists of a frame formed by corners 5 of the same size as the corners 4 at the nozzle inlet and side bars 6. Elastic cables are attached to the corners 5 - front 7 and rear 8. The side panels 6 are attached tightly 9 shields of elastic material e.g. sheet rubber, designed to eliminate air leaks from the sides of the nozzle. If the flaps .9 are made of a thin metal sheet, then they are connected to the slats 6 by means of a joint 10.

The flexibility of loops 7, 8 allows a smooth transition and rotation of the mixture flow to the nozzle inlet without peat particles falling out of the flow, despite the change in the curvature of the loops during their adjustment.

The weight of the nozzle body on the surface of the array is transmitted through two support wheels 16, the axis of which is reinforced in frame 17. The latter is in its

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the turn is fixed on a vertical axis 18, which can rotate in the holes of the bracket 19, but does not have vertical uninterrupted relative to the bracket. The bracket 19 is attached to the nozzle body. Rearranged the frames 17 of the wheels 16 along the axis 18 and fixed them in a certain position with the help of the locking bolts 20, change the position of the nozzle body relative to the surface of the peat massif 1J, and therefore, change the curvature of the plumes 7, 8.

The support wheels 16, when moving the machine both directly and along the curved direction, provide, within rather narrow limits, a certain position of the nozzle inlet and with respect to the array surface. Changes in the surface relief of the array will affect the position of the inlet, since the support wheels are located behind the nozzle body. This change in the distance of the inlet section from the array surface is fully compensated by the elasticity of the front plume, which does not lose contact with the milling layer; peat, and therefore suction air) ha iod front loop does not occur, despite the unevenness of the surface of the array. As for the rear plume, to maintain its position relative to the surface of the array when the nozzle body is vertically moved, it is not suspended through the bar 13 onto the chain 14, as shown in FIG. 4 (in the first embodiment), is supported on two shoes 21. The described modification of the rear plume 8 is depicted in FIG. 5, and the support shoes 21 along the width of the nozzle may be several.

FIG. 6 shows a third variant of the nozzle tip. An additional needle 23 is attached to the back loop 5 by means of bolts 22, which is dragged

on the surface of the array. Thus, regardless of the vertical stir, the envelope of the nozzle body, the air is sucked through the shelf formed by the walls of the loops 8 and 23 and bounded by the stitches 9. The loops 8 and 23 can be hung through the bar J3 and two chains 14 to the brackets 15, which reduces the friction between the surface of the array and the train 23. By moving the suspension point in a direction transverse to the length of the strip 13, it is possible to change the direction of the air jet.

Subject invention

1. A pneumatic nozzle for collecting bulk materials from a spreading out, for example, milled peat, is distinguished by the fact that its front and back walls are made in the form of elastic loops bent backwards in relation to the movement of the nozzle, in order to better fit the nozzle to the material surface moving time.

2. The form of the nozzle in g ;. 1, characterized in that the rear edge of the rear elastic loop is suspended from a bracket fixed on the nozzle body, with the possibility of adjusting the height of its position above the ground in order to meter intake air.

3. The form of the nozzle on the PP. 1 and 2, that is, with the fact that an additional cable 23 is attached to the back loop, adjacent to the surface on which the material is located, and forming a slot with the back loop, which serves to meter the intake air and for direction of the air strings at a certain angle to the surface of the material.

4. The form of the nozzle on the PP. I-3, characterized in that the back train is provided with shoes 21 for resting on the surface on which the material is located.