SU1423030A1 - Screw sowing apparatus - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to agricultural machinery, in particular to working bodies for spreading bulk materials. The aim of the invention is to improve the uniformity of seeding and the reliability of the apparatus. The screw metering unit contains a rotary casing 1 inside which the screw 2 is placed. In the lower part of the casing I there are sowing holes 3, covered by a flap 4. In the body 6 there is a feeding conveyor 7 and a metering device 8, which is connected to the rotary casing 1 by means of a hydraulic cylinder 9 , the working cavity of which through the holes 13 and 15 through the spool device 14 is connected with the hydraulic system of the device. At the ends of the casing 1 installed switches included in the electrical circuit of the valve. With an increase in the speed of movement of the apparatus, an excess of material accumulates in the casing, and a switch that provides an electrical signal to the spool activates and the casing 1 is rotated using the hydraulic cylinder 9, increasing the flow area of the holes 3. 5 Il. (L

Description

/ t- / t

S go

//

four

1HE

SO About

with

(rig 2

FIELD OF THE INVENTION The invention relates to agricultural machinery industry, and v specifically to the working bodies of machines for scattering bulk materials - mineral fertilizers.

The aim of the invention is to improve the uniformity of seeding and the reliability of the apparatus.

FIG. 1 shows a screw suction apparatus ,, general view; FIG. 2 shows the control mechanism of the screw housing, section A-A in FIG. 1; Fig, 3 is a diagram of the spool device; Fig, 4 is a diagram of the installation of the switch (section bb in Fig 2); in fig. 5 electric spool control circuit.

Screw sowing apparatus / Fig. consists of a rotary casing 1, inside of which is located a screw 2, having left and right winding tapes. In the lower part of the casing 1 there are sowing holes 3, crossed by an adjusting plate 4, which is rigidly connected to the frame 5 on which the body 6 is placed.

In the body 6 there is a feed conveyor 7 (Fig. 2) and a metering device 8. The rotary casing 1 is connected to the metering device 8 by means of a hydraulic cylinder 9, 10 and a regulator 11. Gear sector 12 is designed to fix the metering device 8 at a given seeding rate. The working cavity 13 of the hydraulic cylinder 9 through the spool device 14 is connected to the hydraulic system of the apparatus, and the hydraulic cylinder 9 through the opening 15 communicates with the tank.

Spool device 14 includes a spool 16, an electromagnet 17 and a return spring 18 (Fig. 3). The spool 16 (Fig 3) is a two-position. Hole 19 is connected to the working cavity 13 of the hydraulic cylinder 9. Hole 20 is connected to the hydraulic system of the apparatus, and hole 21 to the hydraulic system tank. At the ends of the casing 1 (Fig. 4), there are installed switches, which are a membrane 22 and two contacts; movable 23 and fixed 2L. Contacts 23 and 24 are connected to the electrical system of the device through the electromagnet 17 (Fig. 5).

Screw sowing machine operates as follows.

Before starting work, set the standard seeding rate for the mother

five

0 5

Q

e

five

0

ala For this, the controller 1 is fixed on the toothed sector 12, while the piston of the hydraulic cylinder 9 must always be in the upper extreme position. The dosing device 8 is connected with the rotary casing 1 by means of the ty 10, the regulator 11 and the hydraulic cylinder 9. Therefore, when the slit of the dosing device 8 changes, the casing 1 will turn to one side or the other. The flow area of the sowing holes 3, overlapped by the flap 4, will also change.

During the operation of the apparatus, the material from the body 6 by the conveyor 7 is fed into the casing 1, by the Screw 2 it is distributed along the entire length and simultaneously seeded through the sowing holes 3 across the field. The feed rate of the material conveyor 7 is dependent on the speed of movement of the machine. As the speed of movement increases, an excess of material accumulates in the casing 1, especially in its end parts, the pressure on the membrane 22 will increase and it will deform. When the membrane 22 is deformed, contacts 23 and 24 are closed, and a current will flow along the electric circuit of the electromagnet 14. Under the action of an electric current, the core of the electromagnet 17 and the piston of the spool 16 rigidly connected to it move to the left. Hole 20 will open and hole 21 will close. Oil from the hydraulic system of the machine under pressure through the holes 20 and 19 of the spool 16 enters the working cavity 13 of the hydraulic cylinder 9. Since the rod of the hydraulic cylinder 9 is rigidly connected to the regulator 11 fixed on the gear sector 12, under the action of pressure in the working cavity 13 of the hydraulic cylinder 9, the body cylinder 9 will move upwards. Moving the housing of the hydraulic cylinder 9 will cause the casing 1 to rotate around its longitudinal axis counterclockwise. The flow area of the sowing holes 3, overlapped by the wrap 4, will increase. The total potential capacity of the sowing holes 3 will become higher than the productivity of the feeding conveyor 7. Therefore, the excess material located in the casing 1 will be distributed over the sowing holes 3 through the sowing holes 3. The pressure of the material in the casing 1 is normalized, the membrane 22 under the action of

the elastic forces will take the initial position, the contacts 23 and 24 will open, and the electric circuit of the electromagnet 17 will be de-energized. The core of the electromagnet 17 under the action of the spring 18 will move the piston of the valve 16 to its original position. Hole 20 is closed while 21 is open.

The oil pressure in the working cavity 13 of the hydraulic cylinder 9 will be equal to atmospheric. Under the action of the friction moment occurring between the casing 1 and the transported material and the moment created by the weight of the hydraulic cylinder body 9, the casing 1 rotates clockwise, while the flow area of the sowing holes 3 decreases. The total pass-2o auger installed the switch spool circuit connected to the elec- tricity of the sowing holes.

A screw seeding apparatus containing a hopper with a metering device enclosed in a rotary screw casing, in the lower part of which are sowing apertures, under which a shield is attached, while the screw casing is kinematically connected to the hopper metering device, characterized in that The aim is to improve the uniformity of seeding and reliability of work, snarling is made in the form of a hydraulic cylinder, the working cavities of which are connected to the hydraulic system of the apparatus by means of a valve, while at the ends of the casing

five

Sh

15

2o of the screw installed switches included in the electric circuit of the spool.

Claims (1)

3 becomes equal to the performance of the feed conveyor 7. The formula of the invention A screw seeding apparatus containing a hopper with a metering device enclosed in a rotary screw casing, in the lower part of which are sowing apertures, under which a shield is attached, while the screw casing is kinematically connected to the hopper metering device, characterized in that The aim is to improve the uniformity of seeding and reliability of work, snarling is made in the form of a hydraulic cylinder, the working cavities of which are connected to the hydraulic system of the apparatus by means of a valve, while at the ends of the casing figure 1  (7 L. -ffr ffr yy g5 BUT - h-h