SU1746920A1 - Seed drill - Google Patents

Abstract

The invention relates to agricultural machinery and can be used for sowing seeds into the soil of plants. The purpose of the invention is to improve the uniformity of seeding. The crop contains a frame with a bunker 1 for seeds and coil sowing devices installed under its bottom, sem wires 22 with openers 19, and from coil sowing machines it is made as movable relative to coil 9 and bottom 2 of the seed box hopper 1 and has a mechanism for its fixation relative to their. Each box is equipped with an axial reciprocating movement arranged in the form of electromagnetic coils 23 with cores 24 parallel to the axis of the coil 9, each of the cores 24 is fixed at one end to the side of the seed box, and the electromagnetic coils are fixed to the bottom 2 and have a power source to which they are connected using electrical circuits and contacts. At the lower end of each seed actuator 22, a piezoelectric element is connected to the contacts of the electromagnetic coils 23 by means of electrical circuits with the thermal element. The thermal element is connected to the piezoelectric element with the help of a power amplifier. In operation, the seeds at the output of this wire 22 strike the piezo sensor, causing a current in the circuit. When the seeding rate deviates in one direction or another, the current in the electrical circuit increases or decreases and, amplified by an amplifier, acts on the thermal element, which through an axis with a moving contact closes through the contacts a circuit of a left or right electromagnetic coil 23, under the action of which the cores are pulled connected to the opposite walls of the seed box, deflecting it either to the left or to the right and thereby increasing or decreasing the area of capture by the coil of 9 seeds. 1 hp f-ly, 6 ill. VI 4 O Ch u o

Description

The invention relates to the field of agricultural engineering and can be used for sowing seeds into the soil of plants.

Known for sale (see A. B. Lurje et al. Agricultural machines. Leningrad. Kolos, 1983, p. 77 ... 108), containing a frame with a bunker for

seed and installed under its bottom coil sowing devices, communicated by these wires with openers.

The coils, rotating in the seed boxes, pick up the seeds from the bunker and send them through this wire to the openers, which embed the seeds in the soil.

But such a crop does not provide uniform seeding.

These drawbacks are eliminated in the plant with fixedly mobile seed boxes.

A well-known crop (see A. B. Lurje et al. Agricultural machines1.1. Leningrad, Kolos, 1983, p. 77 ... 108) contains a frame with a bunker for seeds and installed bobbin-type seedlings under its bottom. the devices communicated with this wire with openers, moreover, each of the bobbin sowing apparatus is made in the form of a movable relative to the coil and the bottom of the bunker of the seed box and has a mechanism for its fixation relative to them.

During operation, the seed boxes can be moved in the axial direction relative to the coils, ensuring uniform seeding.

But such a pot has a significant disadvantage, which is expressed in the fact that

the seeding uniformity is established only before seeding and it is not automatically provided during operation.

The aim of the invention is to improve the uniformity of seeding.

The goal is achieved by having a seed truck containing a frame with a seed bin and mounted reel-type sowing devices installed under its bottom, communicated by sem wires with openers, each of the spool-sowing devices being made movable relative to the coil and the bottom of the seedbox bunker and has a mechanism for fixing it relative to them; each seed box of the crop is equipped with its empty side on opposite sides of it, parallel to the axis of the sowing apparatus's coil by an axial-drive reciprocating They are moved in the form of electromagnetic coils with cores, each of the cores of the electromagnetic coils is fixed to the side of the seed box at one end, and the electromagnetic coils are fixed to the bottom of the seed bin and have a power source with which they are connected by electrical circuits and contacts , and on the bottom

At the end of each wire, a piezoelectric element is connected

with contacts of electromagnetic coils through electrical circuits with a thermal element.

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The goal is achieved in the same way by the fact that the piezoelectric element is connected to the thermal element by means of an electric power amplifier.

In such a piezoelectric cell, receiving signals from seeds, convert it into electric current, which, passing through the electromagnetic coils, move the seed boxes relative to the coils of the sowing apparatus, establishing uniformity of sowing.

The description is illustrated in the drawing, where Fig. 1 shows a plant, general view with a cut-out; figure 2 - section aa in figure 1; figure 3 - section bb in figure 1, figure 4 - section b-Vna figure 1; figure 5 is a view of figure 2; figure 6 shows schematically the drive of the seed coil of seed.

The proposed plant includes a bunker 1 for seeds, on the bottom of which 2 holes 3 are made to exit the seeds from the bunker.

On the bottom side of the bottom 2 of the bunker 1, on both sides of the hole 3 there are brackets 4, in the holes of which are placed with the possibility of axial-1 th reciprocating movement, parallel to the bottom of the bunker fingers 5, which are rigidly fixed on lateral sides of seed boxes 6 of the sowing apparatus.

Seed boxes 6 are designed to receive seeds from the hopper 1. They are located under the holes 3 on the bottom; hoppers and holes in the upper and lower walls. At the lower opening, the valve 7 is placed with the possibility of fixed movement, which is necessary for changing the cross section of the outlet opening, for which the valve 7 is provided with a retainer in the form of a bolt 8.

On the sides of the seed boxes 6 are placed coaxially with holes, with the help of which the seed boxes are placed with the possibility of rotating the coil 9 of the sowing apparatus, mounted on a horizontal shaft 10 equipped with a rotational motion mechanism (not shown) and a fixed reciprocating motion ( the drawing is not shown), the latter being intended for planting seed on the seeding rate. Each coil 9 is provided with ribs 11 on the outer surface.

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to grab the seeds from the hopper, to move them around the seed box 6 and transfer them to this wire. In addition, a sleeve 12 fixed from the rotational movement is placed on the coil 9 of the metering unit, for which it is provided with a longitudinal protrusion 13, and the opening of the seed box 6 has a longitudinal groove 14. Such a design of the coil 9 is necessary so that when the coil rotates the sleeve 12 does not rotated and did not capture the seeds and at the same time with axial movement

nor his from work when sowing the optimal number of seeds. It consists of a Sensor, made in the form of a piezoelectric element 31, fixed in the recess of the carrier element 32, connected by elastic elements 33 and 34 of different lengths to the bracket 35 by means of bolts 36 in the slots 37 of the opener body 19. The bracket 35 is mounted inside the opener 18 so that the piezoelectric element 31 is located under the channel 20. On the housing 19 in front of the piezoelectric

coils relative to the seed box and the first element 31 is placed protective shchi6 coils moved ..

The coils 9 of the sowing apparatus are fixed on the shaft 10 with the help of a pin 15, a washer 16 and a cotter pin 17.

The crop is equipped with coulters 18 in the form of loosening organs and each of them consists of a housing f9.B of which a channel 20 is placed for receiving and moving seeds, and on which the disks 21 are mounted with the possibility of rotation on both sides at an angle to each other.

The coulters 18 are connected to the seed boxes 6 by means of this wires 22, which are fixed pivotally on the seed boxes by their upper ends.

Seed boxes 6 are equipped with an axial reciprocating motion, which consists of electromagnetic coils 23 installed on the underside of the bottom 2 of the hopper 1 parallel to the shaft 10 of the coils 9 of the metering unit and placed in pairs, one of each pair is placed on one side of the seed box 6, friend on the opposite side.

Each electromagnetic coil is provided with a core 24, which is fixed by electrically insulating 25. on the finger 5, on which between the side wall of the seed box 6 and the bracket 4 there is a spring 26 holding the seed box 6 in the middle position relative to the hole 3 on the bottom 2 of the hopper 1. The winding of each electromagnetic coil 23 is connected by an electrical circuit 27 to an electric power source 28, for example , the battery through the contact-enablers 29 and 30.

The drive of the seed boxes 6 is equipped with a mechanism for automatically turning it on when the seeding rate deviates from the optimum rate and is disconnected20

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current 38, which protects the piezoelectric element from the ingress of foreign mechanical objects, such as soil lumps. For the same purpose, a piezoelectric element is placed in the recess of the carrier element 32.

The elastic elements 33 and 34, having different lengths, prevent the piezoelectric elements from oscillating movements arising on the coulters - they are extinguished. The grooves 37 ensure the installation of the piezoelectric element in the opener at the required angle to the channel 20,

Each piezoelectric element 31 is connected by an electrical circuit 39 through an amplifier 40 with a thermal element 4 |, made in the form of a spiral of a bimetallic plate with a different coefficient of thermal expansion of the sides. One end of the helix is rigidly fixed, and the other end is connected by means of electrical insulation and heat insulation 42 with an axis 43, which is rotatably located in the hole, of the housing 44. On axis 43, the aforementioned switching contacts of 30 electrical circuits 27 for driving seed coils are fixed by means of electrical insulation 6. The other above-mentioned contacts 29 are fixedly fixed on the housing 44.

On the axis 43, except for the contacts 30, the arrow pointer 45 is fixed, and on the case 44 - the scale 46, which is graded for the number of seeds, we sow per meter of meter. Possible friend graduation. Arrow, pointer and scale provide control over seeding.

In the seed boxes 6, the sleeve 47 with a ribbed inner surface can be rotated in the left side apertures (cm, fig.Z),

element 31 is placed protective spi0

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current 38, which protects the piezoelectric element from the ingress of foreign mechanical objects, such as soil lumps. For the same purpose, a piezoelectric element is placed in the recess of the carrier element 32.

The elastic elements 33 and 34, having different lengths, prevent the piezoelectric elements from oscillating movements arising on the coulters - they are extinguished. The grooves 37 ensure the installation of the piezoelectric element in the opener at the required angle to the channel 20,

Each piezoelectric element 31 is connected by an electrical circuit 39 through an amplifier 40 with a thermal element 4 |, made in the form of a spiral of a bimetallic plate with a different coefficient of thermal expansion of the sides. One end of the helix is rigidly fixed, and the other end is connected by means of electrical insulation and heat insulation 42 with an axis 43, which is rotatably located in the hole, of the housing 44. On axis 43, the aforementioned switching contacts of 30 electrical circuits 27 for driving seed coils are fixed by means of electrical insulation 6. The other above-mentioned contacts 29 are fixedly fixed on the housing 44.

On the axis 43, except for the contacts 30, the arrow pointer 45 is fixed, and on the case 44 - the scale 46, which is graded for the number of seeds, we sow per meter of meter. Possible friend graduation. Arrow, pointer and scale provide control over seeding.

In the seed boxes 6, the sleeve 47 with a ribbed inner surface can be rotated in the left side apertures (cm, fig.Z),

reverse ribbed outer surface of coil 9. Sleeve 47 is secured against axial movement. The sleeve is designed to prevent seed from escaping from the seed boxes through the side opening, which includes the finned coil 9 of the seed meter.

Selka works as follows. Before work, the seed is set to a predetermined sowing rate optimal for a given culture, for which the shaft 10 together with the coils 9 is moved in the axial direction, the ridge surface 11 of the coils 9 in the seed coils 9 of a certain length is installed and in this position the shaft 10 is fixed from axial movement (fixation mechanism not shown).

During the work, the spreader is moved across the field with the nozzles 18 sunk into the soil and with the bunker 1 filled with seeds.

When the seed moves, the shaft 10 rotates together with the coils 9, while the coils 9 rotate together with the sleeves 47, and the sleeves 12, due to the projections 13 entering the grooves 14, do not rotate and seize the seeds.

The coils 9 rotate with ribbed surfaces 11 pick up seeds 6 that are in the seed boxes that fall there under the action of the force of the tin from the bunker 1 and move them to the flexible wires 22, the greater the length of the ribbed surface 11 of the coils 9 is in the seed boxes, the more will be the sowing of seeds and vice versa.

Seeds that get into this wire move through them and get into channels 20 of openers 18 and, moving along channels, get onto piezoelectric elements 31 and from them fall into grooves made by openers 18 in the soil.

Due to the fact that the seed is intended for the sowing of seeds and they move in continuous streams, they continuously act on the piezoelectric elements and excite them with electric current, which, amplified by the amplifier 40, flows through the electrical circuit 39 into the thermal elements 41 and heats their.

If the seeds enter the piezoelectric element 31 at optimum

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quantity, the thermal element 41 is heated to the optimum temperature and occupies a position in which the contacts 30 are not connected to the contacts 29, therefore the circuits 27 are not closed and the coils 6 are kept in the middle position by the action of the springs 26.

If any opener 18 gets less than normal seeds, the number of blows to the piezoelectric element 31 will decrease, less electric current will be excited in it, causing the temperature of the thermal element 41 to drop and its free end, spinning, turn with the axis 43 counter clockwise

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ki, why contact 30, located on axis 43 on the left side (see Fig. 6) is connected with contact 29 and electric circuit 27, is located on the left, is closed and electric current will flow from electric power source 28 through the winding of electromagnetic coil 23, located to the left of The seed coil biv winding excited the electromagnetic forces of induction, which retracted the core 24 and the latter, moving left, will move the seed coil -6 through the finger 5 to the left, compressing the spring 26, which causes the ribbed surface 11 of the coil 9 in the seed coil Little 6 will increase and coil 9 will capture more seeds and they will produce more hits on piezoelectric element 31 and it will produce more electric current and when the number of seeds reaches the optimal amount, the current will be such that the heating element 41 will heat up and it will Having rotated at the expense of varying degrees of elongation of its components, clockwise together with axis 43, withdraws contact 30 from contact 29 and the electric circuit 27 opens, the spring 26 returns the seed coil 6 to the initial position.

If in some shibo opener the seeds go above the established norm, the number of strokes on the piezoelectric element 31 will increase, it will excite more electric current, the temperature of the thermal element will increase, its free end together with axis 43 will turn clockwise and on axis 43 on the right, contact 30 is in contact with contact 29,

located on the right of the scale, causing the electric circuit 27, located on the right, shuts, and electric current will flow from the electric power source 28 to the winding of the electromagnetic coil 23 located to the right of the seed coil 6, the electromagnetic induction forces induced by the core 24, and the latter, moving, will move the seed box 6 to the right by the finger 5, causing the length of the ribbed surface 11 of the coil 9 in the seed box 6 to decrease and it will less seize the seed.

In the same way, other seed boxes 6 will move if there is a deviation from the seeding rate.

When sowing seeds with a different seeding rate, you must move the contacts 29 and fix them in a new place.

In case of oscillatory movements at the opener 18, the bracket 33 and the elastic elements 33 and 34 will oscillate with it, but the latter, having different lengths, will oscillate with different amplitude and different frequency, therefore such an oscillation will be suppressed and the carrier element 32 with the piezoelectric element 31 will not fluctuate.

Inside the coulters 18, the piezoelectric elements 31 are protected from lumps of soil by the flap 38 and the arrangement of the piezoelectric elements 31 in the recesses of the bearing elements 32.

Observance of the seeding rate during work can be monitored by the indications of the pointer 45 on the scale 46.

Technical and economic efficiency.

Introduction to the design of axial reciprocating motion of seed boxes relative to the seed drums, up0

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equal to automatically sown seeds, provides seed sowing with the established norm, which will increase the yield of crops, it will give an economic effect.

Claims (2)

1. A crop containing a frame with a seed bin and coil sowing devices installed under its bottom, communicated by sem wires with openers, each of the bobbin sowing devices made in the form of a relative box and relative to the bottom of the seed box bunker them, characterized in that, in order to increase the uniformity of sowing of seeds, each seed box of seedling is equipped with a drive located on opposite sides of the seed m axial reciprocating movement in the form of electromagnetic coils with cores, each of the cores of the electromagnetic coils at one end fixed to the side of the seed box, and the electromagnetic coils attached to the bottom of the seed bin and have a power source, which is connected via electrical circuits and contacts, and at the lower end of each –sem wire there is a piezoelectric element connected to the contacts of the electromagnetic coils by electrical circuits th element. I 2. Salt Pop 1, characterized in that the piezoelectric element is connected to the thermal element by means of an amplifier with an electric current power. 2 X FIG. 2 A-A t g vm B gff AT 9 Ј gpf t 1Fig. 6