RU2800609C1 - Machine for wide-scale spreading of loose and powder materials - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: machine for wide spreading of bulk and powdery materials comprises a hopper and auger spreader, including a rotary casing made in the form of a hollow cylinder with seeding windows, inside which augers with left and right windings, and intake parts are located. The hopper is made in the form of a semi-trailer with a retractable front side with different body capacity and without a rear side. At the same time, the auger spreader is removably installed in the rear part of the body and comprises a baffle that is retractable with the help of a hydraulic cylinder. Above the intake parts of the auger spreader, two agitators are installed one above the other in a vertical plane, driven by rotation from a hydraulic motor for loosening the packed loose and powdery materials entering the intake parts. The augers having left and right windings with a pitch decreasing from the beginning to the end of the auger have a rotation drive from hydraulic motors installed at the end of the auger with adjustable rotation speed to ensure the supply of materials along the entire length of the auger when setting different seeding rates of loose and powdery materials. At the end of the axis of the augers, next to the hydraulic motor, a disk with a weight is installed to create a high-frequency vibration of the auger, which eliminates the possibility of clogging oblong-shaped sowing windows, adjustable in width by means of a control mechanism installed on the auger casing to ensure uniform pouring of loose and powdery materials with a given seeding rate on the field surface across the entire width of the spreader. To control the vibration amplitude of the augers, the weight of each auger is configured for moving along the groove made on the disk.

EFFECT: improved quality and uniformity of the distribution of fertilizers, bulk and powdered materials in compliance with agrotechnical requirements, increased productivity, which ultimately will increase soil fertility and increase the yield of cultivated crops.

6 cl, 8 dwg

Description

The invention relates to agricultural engineering, and in particular to machines for spreading loose and powdery materials (mineral fertilizers, lime, belite, gypsum, chalk, glauconite, crushed peat, etc.) over the surface of the field.

Known fertilizer apparatus (author's certificate (USSR) MPK A01S 15/08, 1991), containing a hopper with a dosing working body installed in it in the form of a rotating shaft with screw springs fixed on it, the ends of which are placed in the transport channels of the casings having seeding windows with located under them tukopriemye funnels. Between the helical springs and the rotating shaft, additional springs of smaller diameter are installed with the winding direction coinciding with the winding direction of the outer spring and the step exceeding the winding step of the latter by 1.5 times.

The disadvantage of such a device is the possibility of its use only for sowing mineral fertilizers with a small dose of application on fertilizer spreaders.

The closest technical solution is a fertilizer seeding apparatus (RF Patent No. 2163751, IPC A01C 15/08, 1999), containing a hopper, a rotary casing made in the form of a hollow cylinder with an auger located inside it. The latter is made in the form of a wire spiral having a left and right winding, which ensures the supply of material in opposite directions. Inside the working parts of the screw spirals, fixed casings are installed, made in the form of cylinders, which have an outer diameter equal to the inner diameter of the screw spiral. The intake parts of the auger spirals are located inside the hopper. The sowing windows of the casing are located along a helical line with their displacement relative to each other in the direction of rotation of the auger by an equal amount.

The disadvantage of this design is the possibility of its use only for sowing mineral fertilizers with a low application rate and the absence of auger vibration to eliminate the possibility of clogging the seeding windows to control the uniformity of the sowing rate of various types of loose and powdery materials.

The objective of the invention is to expand the technological capabilities of the machine for wide spreading of bulk and powder materials, eliminate the possibility of clogging seeding windows, increase productivity, quality and uniformity of sowing bulk and powder materials (mineral fertilizers, lime, belite, gypsum, chalk, glauconite, crushed peat, etc.). .e) along the surface of the field.

The task is accomplished by the fact that in a machine for wide-spreading loose and powdery materials, containing a hopper and auger spreader (with a grip width of 5 to 20 m), including a swivel casing made in the form of a hollow cylinder with seeding windows, inside which augers are placed having left and right windings and intake parts, in contrast to the prototype, the bunker is made in the form of a semi-trailer with a retractable front side with a different body capacity and without a rear side, while the auger spreader is removable installed in the rear of the body and contains a partition that is retractable using a hydraulic cylinder , and above the intake parts of the auger spreader, two agitators are installed one above the other in a vertical plane with a rotation drive from a hydraulic motor for loosening the packed loose and powdery materials entering the intake parts, moreover, the augers having left and right windings with a pitch decreasing from the beginning to the end of the auger , have a rotation drive from hydraulic motors installed at the end of the auger with adjustable rotation speed to ensure the supply of materials along the entire length of the auger when setting different seeding rates of loose and powdery materials, while at the end of the axis of the augers, next to the hydraulic motor, a disk with a weight is installed to create high-frequency vibration of the auger, which eliminates the possibility of clogging the oblong seeding windows, adjustable in width by means of a control mechanism installed on the auger housing to ensure uniform pouring of loose and powdery materials with a given seeding rate onto the field surface over the entire width of the spreader.

The agitators are mounted on trunnions with a bearing assembly, while the lower agitator is made in the form of a pipe with vertically attached knife rippers and blades installed at an angle of 25-30 ° with an inclination to the left and right sides, ensuring the movement of materials to the center of the spreader, and the upper slatted the agitator consists of annular discs with cutouts, in which the slats are installed.

To control the vibration amplitude of the screws, the weight of each screw is made with the possibility of moving along the groove made on the disk.

The mechanism for adjusting the width of the sowing windows for setting the seeding rate of materials is made in the form of a valve adjacent to the auger casing from the outside and moving around the circumference of the auger casing with the help of an adjusting device.

To eliminate the possibility of blowing loose and powdery materials, the screws are equipped with shutters on both sides along the screw casing.

Support wheels are installed at the ends of the auger to copy the field relief.

The proposed design of the machine for wide spreading of bulk and powder materials retains all the positive elements of the prototype and allows you to expand the technological capabilities of the machine, increase its productivity, quality and uniformity of sowing various types of bulk and powder materials by increasing the capacity of the hopper, which is made in the form of a semi-trailer with a retractable front board, installation of an auger spreader removable in the rear part of the body with a retractable partition and with intake parts located in the lower part of the spreader, and two rotating agitators for loosening the compacted loose and powdery materials entering the intake parts, using augers with left and right windings in the spreader with a step decreasing from the beginning to the end of the screw, driven by hydraulic motors.

The presence of a disk with a weight to create high-frequency vibration of the auger eliminates the possibility of clogging the oblong-shaped seeding windows adjustable in width on the auger casing, which ensure uniform pouring of loose and powdery materials with a given seeding rate over the entire width of the spreader. The rate of application of various types of fertilizers and loose and powdery materials is regulated by the opening of the sowing windows located on the auger casing using the control mechanism, and the uniformity of filling the hollow cylinder of the auger casing by changing the rotation speed of the auger.

To eliminate the blowing of powdery materials, protective shutters are installed on the screw casing on both sides.

To copy the topography of the field surface, support wheels are installed at the ends of the auger.

The augers are transferred to the transport position by folding them along the side with the help of hydraulic cylinders and fixing them.

In FIG. 1 shows a general view of a machine for wide spreading of loose and powdery materials (top view).

In FIG. 2 - general view of the machine (rear view).

In FIG. 3 - agitator with knife rippers and blades for loosening materials.

In FIG. 3a - slatted agitator.

In FIG. 4 - auger.

In FIG. 5 - disk with weight.

In FIG. 6 - auger casing with sowing windows.

In FIG. 7 - mechanism for adjusting the width of the sowing window.

The machine for wide spreading of loose and powdery materials (Fig. 1) contains a bunker made in the form of a semi-trailer 1 with a retractable front side 2 with a different body capacity and without a rear side, while the auger spreader 3 is removable mounted in the rear of the body and contains a retractable using the hydraulic cylinder 22, the partition 4, and the intake parts 5 and 26 (Fig. 1 and 2), located in the lower part of the spreader, above which are installed one above the other in a vertical plane rotating from the hydraulic motor 14 with a revolution of n ₁ with the help of a drive two agitators 6 and 15, providing loosening of compacted loose and powdery materials entering the intake parts. Turners 6 and 15 are mounted on trunnions 27 with a bearing assembly (Fig. 3 and 3a).

Augers 7 and 8 with a diameter of D ₄ =150...300 mm are located inside a rotary casing made in the form of a hollow cylinder with seeding windows and have left and right windings with a step decreasing by 2 times from the beginning to the end of the screw, i.e. t ₁ =2t ₂ , driven by rotation of the hydraulic motors 9 installed at the end of the screws 7 and 8 (Fig. 4). Augers 7 and 8 are equipped with a disk 16 with a diameter D ₅ =200...300 mm with a weight 17 moving along the groove 19 (Fig. 5) installed at the end of the auger axis next to the hydraulic motor, to control the vibration amplitude when sowing ameliorants with different technical characteristics, creating high-frequency vibration of the auger and eliminating the possibility of clogging the seeding windows of an oblong shape, on the auger casing, adjustable in width by means of a control mechanism installed on the auger casing to ensure uniform pouring of loose and powdery materials with a given seeding rate onto the field surface over the entire width of the spreader.

To eliminate the blowing of powdered materials on the casing of the screw, protective shutters 10 are installed on both sides along the casing (Fig. 2).

To copy the relief of the field, support wheels 11 are installed at the ends of the auger.

The lower agitator 6 (Fig. 2 and 3) is a pipe with a diameter of D ₁ =100 mm, along the entire length of which knife rippers 12 are installed vertically to the surface of the pipe and blades 13, located with an inclination relative to the axis of the screw at an angle α=25-30° to the left and right sides, ensuring the movement of materials to the center of the spreader. The upper slatted agitator 15 (Fig. 3a) consists of annular discs 25 with cutouts, in which slats 28 of rectangular section are installed. The outer diameter of the lower agitator and the upper agitator D ₃ is in the range of 250…300 mm.

The lower agitator 6 receives rotation from the hydraulic motor 14 (Fig. 2 and 3) mounted on the outer surface of the spreader 3, the rotation speed n of which is controlled by changing the amount of oil supplied by the throttle installed in the tractor cab, depending on the type of seeded material. The upper slatted agitator 15 (Fig. 3a) serves to grind large lumps and uniform supply of materials to the lower agitator 6 and receives rotation from the lower agitator through a chain drive with sprockets 23 and 24 (Fig. 3 and 3a).

The crushed material enters the intake parts 5 and 26 of the spreader. Augers 7 and 8 have left and right windings (Fig. 2 and 4), the winding pitch at the beginning of the auger t ₁ is twice the winding pitch at the end of the auger t ₂ to ensure rapid loading of the entire volume of the auger with spreading material and its uniform distribution throughout screw length. Screws 7 and 8 are driven by hydraulic motors 9 installed at the end of the screws. On the axis of each auger there is a disk 16 with a weight 17 moving along the groove 19 (Fig. 4, 5) to ensure high-frequency vibration of the auger and eliminate the possibility of clogging the seeding windows 18, oblong in shape, on the auger casing (Fig. 6 and 7) with powdered material . The degree of vibration depends on the type of material being sown and is regulated by moving the weight 17 along the groove 19 of the disk 16 (Fig. 5), the greater the radius r of the installation of the weight 17 on the groove 19, the greater the amplitude of the auger vibration, the value of which is adjustable within r=30...140 mm. If there is no need for vibration when sowing granular materials, the weight 17 is removed from the disk 16.

The mechanism for adjusting the width of the sowing windows is a valve 20 adjacent to the auger casing from the outside and moving along the circumference of the auger casing with the help of an adjusting device 21, consisting of a screw with a lock nut (Fig. 7).

Seeding area 18 depends on constant length and adjustable width b ranging from 10 to 50 mm (Fig. 6, 7). The width of the seeding window 18 is adjusted by turning the valve 20 with the adjusting device 21 of the control mechanism (Fig. 7) to ensure the seeding rate and uniform supply of materials through the seeding windows 18 along the entire length of the auger. Distance between the centers of the sowing windows

The opening of the retractable partition 4 is carried out by the hydraulic cylinder 22 before starting work, and closing - at the end of work.

The main requirements for the operation of a machine for wide spreading of loose and powdery materials is compliance with the specified rate of application of loose and powdery materials and their uniform sowing on the field surface over the entire width of the spreader.

The productivity of the screw q, kg/s, is determined by the formula:

where D ₄ - the inner diameter of the screw, m;

d - screw shaft diameter, m;

t - auger screw pitch, m;

n - screw speed, rpm;

γ - bulk density of the material, kg/m ³ ;

с - coefficient of inclination of the auger with a horizontal auger, c=1;

K - filling factor of the screw, K=0.4…0.8.

With a known productivity of the auger, it is possible to determine the rate of application of materials by the formula:

where W _agr - unit productivity, ha/h;

where B is the width of the spreader, m;

ν - speed of movement of the unit, m/s;

τ - coefficient of use of shift time.

Thus, the rate of application of materials depends on the parameters of the screw (D, d, t, B), length and width b of the sowing windows, auger speed n, material bulk density γ and travel speed ν. With a known application rate of the material Q, t/ha, it is possible to determine the parameters of the auger that ensure the maximum productivity of the unit W _agr . With known parameters of the auger, the fertilizer application rate Q can be controlled by the auger speed n, the adjustment value of the sowing window width b and the speed of the unit ν. To ensure continuous supply of materials to the intake parts of the spreader, it is necessary to determine the speed of movement of the front side of the semi-trailer using a known material application rate.

Machine for wide spreading of loose and powdery materials works as follows. Semi-trailer body 1 is loaded with spreading material. The sowing rate and the uniformity of sowing materials are set by adjusting the width b of the seeding windows 18 using the adjusting device 21 of the control mechanism, opening or closing the valves 20. windows. To do this, on the adjusting platform, with the valves 20 set in place, the auger is put into operation for several minutes and the seeded material is weighed along the entire length of the auger at a certain distance. When uniform sowing is achieved over the entire width of the spreader, the valves are fixed in the set position.

Then, when the area of the seeding windows is set, the required frequency of rotation of the auger axis n, rpm is determined to fill the entire width of the auger with the seeded material. The rate of application of materials is adjusted by the speed of movement of the unit. To ensure uninterrupted supply of the seeded material, the speed of movement of the front side is set. Before starting the seeding of the material, the retractable partition 4 of the auger spreader is opened using the hydraulic cylinder 22. The spreader is ready to go.

Then they go out into the field and sow loose and powdery materials on the field surface, while the material from the semi-trailer 1 first enters the upper slatted agitator 15 for crushing large lumps and uniform supply of material, and then into the lower agitator 6, where with the help of knife rippers 12 crumbling of loose and powdery materials is ensured, and with the help of blades 13 the material moves to the center of the spreader. The crushed material enters the intake parts 5 and 26 of the spreader, and then with the help of augers 7 and 8, having left and right windings with a step that decreases by 2 times from the beginning to the end of the auger, the entire volume of the auger is quickly loaded with the spread material and its uniform distribution along the entire length of the auger., through the sowing windows 18, the material is ejected from the casing and distributed over the field.

The introduction of a machine for wide spreading of loose and powdery materials for sowing various types of fertilizers and ameliorants into production will expand the technological capabilities of the machine, improve the quality and uniformity of the distribution of fertilizers and ameliorants, increase the productivity of the unit when applying fertilizers and loose and powdery materials in compliance with agrotechnical requirements, which will ultimately provide an increase in soil fertility and an increase in the yield of cultivated crops.

Claims (6)

1. A machine for wide spreading of loose and powdery materials, containing a bunker and a screw spreader, including a rotary casing made in the form of a hollow cylinder with seeding windows, inside of which are placed augers having left and right windings, and intake parts, characterized in that the hopper made in the form of a semi-trailer with a retractable front side with a different capacity of the body and without a rear side, while the auger spreader is removably installed in the rear part of the body and contains a partition that is retractable using a hydraulic cylinder, and above the intake parts of the auger spreader, two agitators are installed one above the other in a vertical plane with a rotation drive from a hydraulic motor for loosening the compacted loose and powdery materials entering the intake parts, moreover, the screws, having left and right windings with a pitch decreasing from the beginning to the end of the screw, have a rotation drive from hydraulic motors installed at the end of the screw with adjustable rotation speed for ensuring the supply of materials along the entire length of the auger when setting different rates of seeding of loose and powdery materials, while at the end of the axis of the augers, next to the hydraulic motor, a disk with a weight is installed to create high-frequency vibration of the auger, eliminating the possibility of clogging oblong seeding windows, adjustable in width by means of a control mechanism installed on the auger housing to ensure uniform pouring of loose and powdery materials with a given seeding rate onto the field surface over the entire width of the spreader. 2. A machine for wide-spreading loose and powdery materials according to claim 1, characterized in that the agitators are mounted on trunnions with a bearing assembly, while the lower agitator is made in the form of a pipe with knife rippers attached vertically to it and installed at an angle of 25-30 ° with blades inclined to the left and right sides, ensuring the movement of materials to the center of the spreader, and the upper slatted agitator consists of annular discs with cutouts in which the bars are installed. 3. A machine for wide spreading of loose and powdery materials according to claim 1, characterized in that, in order to regulate the vibration amplitude of the augers, the weight of each auger is movable along a groove made on the disk. 4. A machine for wide-spreading loose and powdery materials according to claim 1, characterized in that the mechanism for adjusting the width of the sowing windows for setting the sowing rate of materials is made in the form of a valve adjacent to the auger casing from the outside and moving along the circumference of the auger casing with the help of an adjusting devices. 5. A machine for wide spreading of loose and powdery materials according to claim 1, characterized in that, in order to eliminate the possibility of blowing loose and powdery materials, the augers are equipped with shutters on both sides along the auger housing. 6. A machine for wide spreading of bulk and powdery materials according to claim 1, characterized in that support wheels are installed at the ends of the auger to copy the field relief.