RU2705543C1 - Roller sowing apparatus - Google Patents

Abstract

FIELD: agriculture; machine building.

SUBSTANCE: invention relates to agricultural machine building, in particular, to coil sowing units. Coil seeder comprises housing, coil on drive shaft, socket, coupling, valve installed under coil. Valve working surface is smooth, wherein valve working surface has front and rear parts. On the valve rear part the continuous rubber coating with studs is applied by the gumming method. Studs are made in the form of truncated cones and arranged in staggered order. At that, angle of girth α solid coating of rubber with studs, measured from valve release edge, is equal to α=105°, with center of radius of curvature R in center of rotation of coil. Diameter of stud base is d=3.0…4.0 mm, studs top base diameter is d₁=2.0…3.0 mm, and height of studs height h is more than thickness of sown seeds. Value of width of passage between rows of studs, measured on studs lower bases, is more than width of sown seeds. Value of free gap between top bases of studs and ribs of coil measured along vertical symmetry axis of coil is within the limits of thickness of active layer of seeds. Coating of rubber with studs has flanging located along valve edge directed towards socket. Flanging is directed vertically upwards. Height h₁ flanging is more than height of studs h, at that flanging thickness is equal to thickness of solid coating from rubber with pins. Coat from antifriction material is applied on valve front part.

EFFECT: invention will make it possible to ensure quality of seeds sowing.

1 cl, 3 dwg

Description

The invention relates to agricultural machinery, in particular to coil metering devices.

Known metering apparatus [1], comprising a housing with a grooved metering coil placed in it, an adjustable shutter at the exit window of the apparatus, the bottom of the housing, made in the form of part of a cylindrical surface with a center of radius of curvature at the center of rotation of the grooved coil.

The disadvantages of the metering apparatus include the adjustment of the shutter installed at the output window of the device, which leads to a violation of the formation of parameters of the active and fixed layers, which will lead to uneven seeding of seeds. In addition, the execution of the bottom of the casing in the form of a part of a cylindrical surface with the center of radius of curvature at the center of rotation of the grooved coil contributes to the deterioration of the supply of seeds from the seed box into the free space between the grooved coil and the bottom of the casing, which will also affect the irregularity of sowing, while the crop yield declining.

Known sowing apparatus [2], comprising a housing, a coil in the form of a cylinder with grooves on its surface and a valve with a seed discharge edge, the edge of the valve seed discharge is placed in a plane tangent to the generatrix of the cylindrical surface of the coil and located at an angle to the horizontal smaller than the angle repose of seeds.

The disadvantages of the sowing apparatus include a sharp increase in the edge of the seed discharge relative to the level of natural slope of the seeds located on the valve, which will lead to a sharp decrease in the thickness of the active layer of seeds and to a sharp increase in the thickness of the fixed layer of seeds, and, as a consequence, to a deterioration in the stable dosage of seeds while crop yield is reduced.

A known seed metering apparatus [3], comprising a housing with a coaxially mounted coupling with a rib, a grooved coil, a socket and a bottom installed under them with a shutter having a groove under the carrier attached to the coupling, the coil is equipped with a carrier gear ring, a protrusion located opposite the crown and connected to the coupling with the possibility of reciprocating motion parallel to the axis of rotation of the coil, and the coupling is equipped with a spring-loaded carrier in the direction of the crown of the elastic element.

The disadvantages of the reel seeding apparatus include the oscillating damper mounted on the bottom, which, when the grooved reel operates, disrupts the seeding process, while the parameters of the active layer are not maintained, which leads to uneven seeding and lower yields.

Known sowing apparatus [4], including a seed box with a socket mounted on the shaft of the coil with grooves, a seed guide in the lower part of the seed box, a clutch with a rib and a valve, while the ribs of the grooves of the coil with grooves are made along a helical line at an angle of 18 ... 22 ° to the axial line of the coil, and the ribs of the coil with grooves do not have a brush frame, and the rear end part of the valve is rectangular, and the cut line of the rear end part of the valve is located below the axis of the coil with grooves on (0.6 ÷ 0.7) R of the coil con The end of one rib of the coil with grooves in the direction of rotation of the coil coincides with the right top of the valve, and the beginning of the next rib of the coil with grooves coincides with the left top of the valve, while the slots of the socket are made in the form of ribs of the coil with grooves at an angle of 18 ... 22 ° to the axial coil lines.

The disadvantages of the sowing apparatus include the execution of the rear end part of the valve of a rectangular shape, which leads to uneven portioned sowing of seeds and reduced yield.

Known metering apparatus [5], comprising a housing, a coil in the form of a cylinder with grooves on its surface and a valve, the coil is made with an increased volume of grooves, made of wear-resistant plastic with antifriction properties, and the bottom is rigidly mounted on the valve by means of supports made in the form part of the side surface of the cylinder with leading and trailing edges and with an axis of symmetry coinciding with the axis of symmetry of the coil, the bottom having a polished inner surface with a radius greater than the radius of the coil, and the leading edge of the bottom and deviated in the direction of rotation of the coil at an angle of 40 ... 45 degrees down from the horizontal plane of symmetry of the coil and is located in the third quadrant parallel to the axis of symmetry of the coil, while the trailing edge of the bottom is made with a bevel to discharge seeds, located in the fourth quadrant and rejected in the direction of rotation of the coil at an angle of 54 ... 58 degrees to the right of the vertical plane of symmetry of the coil, in addition, a shaper-guide made in the form of a part is rigidly installed in the housing of the metering device adjacent to the front edge of the bottom the lateral surface of the cylinder with the axis of symmetry coinciding with the axis of symmetry of the coil, and the shaper-guide has a polished inner surface with a radius equal to the radius of the inner polished surface of the bottom, and the free upper part of the shaper-guide is deflected along the axis of symmetry of the coil in the second rotation of the coil at an angle of 47 ... 53 degrees to the left of the vertical plane of symmetry of the coil and a brush is attached to it, the pile of which is located on a circle with a radius of less e radius of the coil, wherein the gaps between the coil and Donets shaper-guide of equal to and smaller than the average minimum thickness of crop seeds.

The disadvantages of the sowing apparatus include the lack of active and fixed seed layers, which are placed in the enlarged volume of the coil grooves, while the damage to the seeds increases, despite the polished surface of the valve, which leads to uneven sowing and a decrease in crop yield.

Of the known closest in technical essence (prototype) is a spool metering device [6], comprising a housing with a metering coil placed in it and a valve installed underneath, while the valve surface is made in the form of alternating protrusions and depressions.

The disadvantages of the coil metering apparatus include the implementation of the valve’s working surface in the form of alternating protrusions and depressions, which, due to their transverse arrangement, create direct frontal resistance to the seeds, in which the fixed layer swells, the action of which is transmitted to the active seed layer, and the shape of the active layer is disturbed and violation of the specified parameters of the active layer of sown seeds. Also, the use of alternating protrusions and depressions on the valve of the sowing apparatus leads to a change in the direction of movement of part of the seeds to the sides of the housing of the seed box, which causes an increase in injury to the seeds in the area of the socket of the seed box. At the same time, the seeding uniformity worsens, the stability of the given seeding rate is not ensured, the injury to the seeds increases and the yield decreases.

The claimed invention is aimed at eliminating the above disadvantages and when using it, the following result was obtained: a stable active seed layer of the required thickness is formed, uniform seed sowing is obtained with a given rate, while the time for forming a stable fixed seed layer is reduced, which also contributes to the formation of a stable active seed layer the required thickness and uniform sowing of seeds with a given norm, the crushing of seeds is reduced. All this leads to an improvement in the quality of sowing seeds, increase crop yields and reduce production costs.

The specified technical result is achieved through the use of a coil meter, including a housing, a coil on the drive shaft, a socket, a sleeve, a valve mounted under the coil, while the working surface of the valve is smooth, while the working surface of the valve has front and rear parts, while on the back of the valve, a continuous coating of rubber with spikes is applied by the method of gumming, while the spikes are made in the form of truncated cones, while the spikes are staggered, with a girth angle α, a continuous coating of rubber with spikes, measured from the edge of the valve discharge, is α = 105 degrees, with the center of radius of curvature R in the center of rotation of the coil, while the diameter of the lower base of the studs is d = 3.0 ... 4.0 mm, while the diameter the upper base of the tenons is d ₁ = 2.0 ... 3.0 mm, while the height h of the tenons is more than the thickness of the sown seeds, while the width of the passage between the rows of tenons, measured along the lower bases of the tenons, is greater than the width of the sown seeds, the size of the free gap between the upper bases of the spikes and the ribs carcass, measured along the vertical axis of symmetry of the coil, is within the thickness of the active layer of seeds, while the rubber coating with spikes has a flange located along the edge of the valve directed toward the outlet, with the flanging directed vertically upward, with a height value of h ₁ the flanges are more than the height of the spikes h, while the flanging thickness is equal to the thickness of a continuous coating of rubber with spikes, while the front of the valve is coated with antifriction material.

Description of drawings

In FIG. 1 shows a diagram of a coil meter

In FIG. 2 shows a diagram of a valve with a solid rubber coating with spikes and flanging

In FIG. 3 shows a diagram of a reel metering apparatus (rear view, section)

The coil metering device includes a housing 1 (Fig. 1), a coil 2 on the drive shaft 3, a socket 4, a coupling 5, a valve 6 mounted under the coil 2, while the working surface of the valve 6 is smooth, while the working surface of the valve 6 has a front and the back, while on the back of the valve 6, the gumming method applied a continuous coating of 7 rubber with studs 8 (Fig. 1, Fig. 2), while the studs 8 are made in the form of truncated cones, while the studs 8 are staggered order, while the angle of coverage α (Fig. 1), a continuous coating 7 of rubber spikes 8, measured from the edge of the discharge 9 of valve 6, is α = 105 degrees, with the center of radius of curvature R in the center of rotation of the coil 2, while the diameter of the lower base of the spikes 8 is d = 3.0 ... 4.0 mm (Fig. 2 ), while the diameter of the upper base of the spikes 8 is d ₁ = 2.0 ... 3.0 mm, while the height h of the spikes 8 is more than the thickness of the sown seeds, while the width of the passage between the rows of spikes 8, measured along the lower bases of the spikes 8, more than the width of the sown seeds, while the size of the free gap between the upper bases of the spikes 8 and the ribs of the coil 2, replace ennogo the vertical axis of symmetry of the coil 2, is located within the thickness of the active layer of seeds, the coating 7 of 8 spiked rubber has a flanging 10 disposed along the edge 6 of the valve directed towards the outlet 4 (Fig. 3), while the flanging 10 is directed vertically upward, while the height h _{1 of the} flanging 10 is greater than the height h of the spikes 8 (Fig. 2), while the thickness of the flanging 10 is equal to the thickness of the continuous coating 7 of rubber with spikes 8, while on the front part of the valve 6 is coated with an anti-friction material 11 (Fig. 1 of Fig. 2).

Coil metering device operates as follows. When the coil 2 (Fig. 1) rotates with a shaft 3, the grooves are filled with seeds from the upper part of the seed box body 1 and sent to the valve 6 of the sowing apparatus, filling the front of the working surface of the valve 6 with a coating 11 of antifriction material, as well as the rear surface of the continuous coating 7 from rubber with studs 8 (Fig. 1, Fig. 2) and all the free space between the coil 2 and valve 6. From valve 6, the seeds are ejected into the vas deferens (not shown).

To form a stable active seed layer of the required thickness, to obtain uniform sowing of seeds with a predetermined rate, the working surface of the valve 6 is smooth, while the working surface of the valve 6 has front and rear parts, while on the back of the valve 6, a continuous coating 7 is applied by gumming made of rubber with spikes 8 (Fig. 1, Fig. 2), while the spikes 8 are made in the form of truncated cones, while the spikes 8 are staggered, which leads to an increase in the free space between the spikes 8 of their upper hour and thereby the seeds quickly enter between the studs 8 and rapidly sink to the rubber coating 7, 8 with studs, forming a stable fixed bed of seeds that promotes formation of a stable seed active layer thickness, this increases the uniformity of seed sowing a predetermined norm. In addition, the formation of a stable active seed layer of a given thickness over the entire area of the working surface of the rubber coating 7 with spikes 8 is facilitated by the circumference angle α (Fig. 1) of a continuous coating 7 of rubber with spikes 8 measured from the edge of the valve discharge 9 6 is equal to α = 105 degrees, with the center of radius of curvature R in the center of rotation of the coil 2, while the value of the free gap between the upper bases of the spikes 8 and the ribs of the coil 2, measured along the vertical axis of symmetry of the coil 2, is within the thickness of the active seed layer , When this at the front of the valve 6 is coated with a coating 11 of antifriction material.

To reduce the time for the formation of a stable fixed seed layer, which also contributes to the formation of a stable active seed layer of the required thickness and uniform sowing of seeds with a given norm, the diameter of the lower base of the spikes 8 is d = 3.0 ... 4.0 mm (Fig. 2), the diameter of the upper base of the spikes 8 is d ₁ = 2.0 ... 3.0 mm, while the height h of the spikes 8 is more than the thickness of the sown seeds, while the width of the passage between the rows of spikes 8, measured along the lower bases of the spikes 8, more than the width of the sown seeds.

To reduce the crushing of seeds, due to the exclusion of their descent towards the socket 4 (Fig. 3) of the metering device, the coating 7 (Fig. 2) of rubber with spikes 8 has a flange 10 located along the edge of the valve 6, directed towards the socket 4, with this flanging 10 is directed vertically upward, while the height h _{1 of the} flanging 10 is greater than the height h of the spikes 8, while the thickness of the flanging 10 is equal to the thickness of a continuous coating 7 of rubber with spikes 8.

Thus, the operation of the sowing apparatus, when installed on the back of the working surface of the valve 6 of a continuous coating of 7 rubber with studs 8 in the form of truncated cones and flanging 10 on a continuous coating of 7 rubber with studs 8, provides uniform seed sowing with a given rate, with less crushing of seeds. All this improves the quality of sowing, which leads to higher yields and lower production costs.

Literature

1. RF patent No. 324972, IPC A01C 7/12, Bull. No. 3 dated January 7, 1972 (analogue)

2. RF patent No. 1496671, IPC A01C 7/16, Bull. No. 28 dated 07/30/1989 (analogue)

3. RF patent No. 1477280, IPC A01C 7/12, Bull. No. 17 dated 05/07/1989 (analogue)

4. RF patent No. 2384040, IPC A01C 7/12, Bull. No.8 of March 20, 2010 (analogue)

5. RF patent No. 2540547, IPC A01C 7/12, Bull. No. 4 dated 02/10/2015 (analogue)

6. RF patent No. 715046, IPC A01C 7/12, Bull. No. 6 of 02.15.1980 (prototype)

Claims (1)

The spool metering device, comprising a housing, a coil on the drive shaft, a socket, a sleeve and a valve mounted under the coil, characterized in that the working surface of the valve is smooth, while the working surface of the valve has front and rear parts, while on the back of the valve gumming applied a continuous coating of rubber with spikes, while the spikes are made in the form of truncated cones, while the spikes are staggered, while the angle of coverage α of a continuous coating of rubber with spikes, measured from the valve discharge mark is α = 105 °, with the center of radius of curvature R at the center of rotation of the coil, while the diameter of the lower base of the studs is d = 3.0 ... 4.0 mm, while the diameter of the upper base of the studs is d ₁ = 2, 0 ... 3.0 mm, while the height h of the spikes is greater than the thickness of the seeds to be sown, while the width of the passage between the rows of thorns, measured along the lower bases of the thorns, is greater than the width of the seeds to be sown, while the size of the free gap between the upper bases of the thorns and ribs of the coil, measured along the vertical axis of symmetry of the coil, tries ditsya within the thickness of the active layer of seeds, the coating of the rubber with spikes has flanging disposed along the valve edge directed towards the outlet, wherein the flange is directed vertically upwards, while the value of the height h ₁ flanging greater than the height h of studs, wherein the thickness flanging is equal to the thickness of a continuous coating of rubber with spikes, while the front of the valve is coated with antifriction material.

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