RU2056715C1 - Farm crop seeding method and apparatus - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves seeding three or four crops in one row, with each crop having predetermined seed depth; making arced channels in soil; seeding seeds into channels and pressing them into soil by widening arced channels. Apparatus has runner-type openers provided with pairs of soil deforming members positioned at sides of openers at different depth. Front pair of deforming members are made hollow. Cavity defined between front pair of deforming members is communicated with respective seed channel made in runner. Second pair of deforming members have bases of larger size. Each opener is connected with respective seed box or with sections of seed boxes of respective seeding unit. Number of seeding units corresponds to the number of farm crops, which are simultaneously sown into arced channels. EFFECT: increased efficiency, simplified construction and enhanced reliability in operation. 3 cl, 23 dwg

Description

 The invention relates to agriculture and agricultural machinery, in particular to methods and devices for planting seeds in the soil of forage crops.

 A method is proposed for sowing seeds of agricultural crops, according to which gaps with a compacted bed are formed in the soil, seeds are sown in it and pressed into the soil to a predetermined placement depth.

 Known methods of sowing seeds are characterized by increased labor and energy costs and do not meet the criterion of modern intensive agriculture to obtain the maximum yield without soil fatigue at a minimum cost.

 The closest method for the same purpose to the claimed method relates to a method of general cultivation of corn and sorghum for the production of silage, which includes sowing sorghum in tiers (in stages) over corn in one row (1) (adopted as a prototype). With this method of sowing, both crops are sown in one pass of the seeder, while the yield of green mass per unit area increases without a significant increase in labor and energy costs, and the root system of panicleless sorghum creates a certain microclimate for corn roots in summer heat.

 For reasons that impede the achievement of the desired result when applying the known method adopted for the prototype, the method is limited to only two crops, the known method does not disclose the essence of planting seeds in the soil; since the method involves the use of known devices for sowing, this is the most significant drawback of the prototype: when sowing, sorghum seeds are not forcibly kept on their "floor", and the possibility of them falling to the lower "floor to the depth of embedding corn seeds in the soil is not excluded, which is unacceptable according to agrotechnical requirements (the depth optimal for the given culture is not ensured) and negatively affects the joint “living” of the two crops. In addition, the green food of the two named concrete The crop is not nutritionally balanced and does not allow variation due to other crops, including sowing in one row, but at different depths of three or four crops.

 Known semi-open coulters, for example, which are an integral part of sowing machines, which form a gap in the soil with a densified bed, uniform distribution of seeds and their placement in furrows.

 Known devices for sowing do not provide simultaneous sowing at different depths of the seeds of several crops.

 The closest device of the same purpose to the claimed object, by a combination of characteristics, is a universal pneumatic mounted seeder for sowing the corn or sunflower seeds in a dotted way with local application of mineral fertilizers (2, pp. 146-148 Fig. V.15) adopted as a prototype. The seeder contains several seed boxes with its sowing devices and crawler openers that provide simultaneous sowing of crops and the introduction of granular mineral fertilizers.

 The reasons that impede the achievement of the required technical result when using the known device adopted for the prototype include the fact that the known device does not allow simultaneous sowing of seeds of several crops in one row, but at different depths and with their own norms of sowing, which, in its in turn, it excludes the introduction of promising technologies for sowing and growing forage crops.

 The invention consists in the following.

 The problem to which the claimed invention is directed, is to ensure high-quality sowing of seeds in tiers of three or four predominantly forage crops in line with their depths of planting in the soil.

 The effect and technical result that can be obtained by carrying out the invention are expressed in increasing yields per unit area while reducing unit costs of material, energy and labor resources, obtaining balanced feed nutrients, eliminating weeds, protecting the soil from erosion.

 The indicated effect and technical result during the implementation of the invention are achieved in that in the known method of long-level sowing of two crops simultaneously with the formation of a gap in the soil and sowing one of the crops in its bed, on the sides of the gap and at different depths, optimal for the corresponding seeds, in the soil, arcuate channels are squeezed out into which seeds are held, held in the channels by the moving slit former, after which the seeds are pressed into the soil by expanding the arcuate channels and the gap is filled with It would be formed in the channels of loose soil.

 In the device for implementing this method, in contrast to the known device, the crawler coulters are equipped with several pairs of soil deformers located on the sides and at different depths, made in the form of a cone cut along the axis, one of the pair of deformers is hollow and with an open base, its cavity is connected with the corresponding seminal canal made in the runner, the second of the pair of deformers has large sizes of the base, the continuation of which is a hemisphere, both deformers of the pair are located on on one horizontal axis, the hollow deformer is located in front, and the tops of the cones of all deformers are directed towards the cutting edge of the openers, each opener connected to separate seed boxes or seed box compartments with its sowing unit, the number of which is equal to the number of crops sown at the same time, and the number of pairs of deformers on each coulter is one less than the number of simultaneously sown crops.

 The analysis of the level of technologies (methods) and technology carried out by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find analogues (both in part of the method, and in part devices for implementing the method), characterized by features identical to all the essential features of the claimed invention. The proposed prototypes for the method and for the device made it possible to identify a set of essential distinguishing features in relation to the applicant’s perceived technical result in the claimed method and device for implementing the method set forth in the claims.

 Therefore, the claimed invention meets the requirement of "novelty" under applicable law.

 To verify the compliance of the claimed invention with the requirements of the inventive step, the applicant conducted an additional search for known methods and technical solutions in order to identify features that match the distinctive features of the claimed invention from the prototype. The results of the verification show that the claimed invention does not follow for the specialist explicitly from the known level of technology and technology, in particular, the claimed invention does not provide for known transformations.

 Therefore, the claimed invention meets the requirement of "inventive step" under applicable law.

 The proposed method of sowing seeds of crops and a device for its implementation are illustrated by diagrams and drawings.

 In FIG. 1 and depicts a diagram of a row planting of seeds (plan view); in FIG. 2-7 diagrams showing the sequence of implementation of the method of sowing seeds (section aa in figure 1); on Fig-10 nodes I, II and III in Fig.3, 4 and 5, respectively; figure 11 diagram of the final stage of seeding in the soil; on Fig General view of the device for sowing seeds (plan view); Fig.13 is the same side view; on Fig General view of the crawler opener; on Fig-23 section BB, B-V, D-D, EE, FZ, ZZ, II, KK in Fig.14, respectively.

 The proposed method is implemented as follows.

Sowing is carried out in a wide-row way, with row spacing b = 45; 60; 70 cm; the number of rows n in one pass of the device for sowing 4, 6, 8; width nb of FIG. 1. Sowing begins with the formation of a gap in the soil (Fig. 2) of width t (Fig. 1). A further movement of the slit educator, on the side of the slit at a depth a, extrudes an arcuate channel (Figs. 3, 3); the depth a ₁ corresponds to the optimal depth of planting in the soil the seeds of one of the sown agricultural crops. Seeds are sown in the formed channel, which are initially held in the channel by a moving slit former, then the arcuate channel is expanded, due to this the seeds are pressed into the soil (Figs. 4, 8, 9, 10). At the same time, with the same movement of the gap former on the opposite side of the gap, a second arcuate channel is extruded in depth a ₂ (Fig. 4); the depth a ₂ corresponds to the optimum depth of planting the seeds of the second sowing culture into the soil. Seeds are also sown in this channel, which are initially held in the channel by the slit former, then pressed into the soil (similar to the schemes in Figs. 8-10). With further movement of the slit former at a depth of a ₃ , a third arcuate channel can be formed on the other side of the slit (Fig. 5), into which seeds of the third culture are sown in the same way (Fig. 6): the depth a ₃ also corresponds to the optimal embedment depth in soil of the seeds of this culture. The formation of a gap in the soil ends with the formation at a depth of _{4 of an} expanded compacted bed (Fig. 6), in which the seeds of the fourth culture are sown and pressed into the soil in a known manner (Fig. 7), for this culture, the depth of ₄ planting in the soil is optimal. The final stage of sowing is to fill up the gap with the loose soil formed in the channels (Fig. 11), the soil is used in the immediate vicinity of the cracks in the strip c (Fig. 1).

 By the described method, mainly seeds of highly stalked crops are sown, which, after cultivation, are used mainly as green fodder and products of its processing. For sowing in one row in a tier way, crops with different optimal (for each crop) depths of planting their seeds in the soil are selected. Sowing is carried out in four (as shown in Fig. 2-11) or in 3 tiers, in the latter embodiment, one of the side arcuate channels, for example, at a depth of 1 (Fig. 3), is not used. The following crops can be used as fodder high-stalk crops suitable for sowing in a longline method: corn, sunflower, sorghum of all kinds, Sudan grass, amaranth, mustard (for green fodder), soybeans, peas, melilot, oats, barley, oil radish, spring rape, mallow, etc. The sowing rate of seeds of each crop sown in one row in a tier way is reduced on average by 2 times compared to the sowing rate in a row in the traditional way, one crop in one row.

An example of a set for sowing seeds of agricultural crops of the proposed method:
corn depth of seeding in the soil 6-8 cm,
oats embedment depth 5-6 cm,
Sorghum sugar depth of embedding is 2-3 cm,
amaranth embedment depth 0.5-1 cm.

 To implement the described method of sowing seeds of agricultural crops, a device is used (Figs. 12-23), which includes (Figs. 12, 13): frame 1, support-drive wheels 2, sectional seed boxes 3 for seeds of three seeded crops, seed boxes 4 for the largest seeds of one sown crop. In each compartment of the seed boxes 3 sowing devices are mounted, one sowing device is provided in the seed boxes 4. The device for sowing seeds also contains creeper-type openers 5, seed tubes 6 connecting the seed units of the sectional seed boxes 3 with the corresponding channels in the openers 5, rolling rollers 7 , drives from wheels 2 and from rollers 7 to sowing devices (not indicated in the drawings), the sowing devices of the same name having their own drive parameters. Each of the creeper-type openers 5 (Figs. 14-23) contains a skid fastened in two parts (soil gaps) 8 with a cutting edge "a", several pairs (three pairs are shown in the drawings) of soil deformers 9 and 10, made in the form of a cone cut along the axis. Pairs of deformers mounted on a runway 8 on the sides and at different heights (with respect to the soil at different depths). One deformer 9 of the pair is made with an open base, a cavity "b" is provided in it, connected to the corresponding seminal channel "c" in the runner (slit maker). The second deformer 10 of the pair has a large base size (compared with the deformer 9), the continuation of the base is the hemisphere "g". In runway 8, channels “d” and “e” are also provided for the second and third pair of deformers 9 and 10. Channels “b”, “d” and “e” are connected to the corresponding seed tubes 6 and the compartments of the seed boxes 3. Both deformers 9 and 10 of the pair are located on one horizontal axis 1-1, the deformer 9 with the open base is placed in front, and the vertices of the cones of all the deformers are directed towards the frontal part of the cutting edge “a” of the opener. In the runner 8 there is a through channel "g", communicating with the seed box 4. The rear lower part of the runner 8 ends with a thickening "and" for local expansion in the soil of the gap, this thickening has a front "k" and side "l" slopes, the latter are oriented in side of the frontal part of the cutting edge "a" runner. The thickening "and" is a continuation of the liner 11, fastened to the cheeks 12. To close the cracks in the soil, the seeder includes shovels 13 and soil levelers 14 (Fig. 12), these are also roller rollers 7. A feature of the device for sowing seeds is also that the number of seed boxes or seed box compartments (in our case, three compartments in seed boxes 3 plus seed box 4) is equal to the number of crops sown simultaneously, and the number of pairs of soil deformers 9 and 10 (in our case, three pairs) per unit less than the number of simultaneously sown crops (Fig.12, 13).

 The described device implements the proposed method of sowing seeds as follows.

The device is normally aggregated with a tractor. In the compartments of the seed boxes 3 and in the seed box 4, individual sowing apparatuses are installed corresponding to the sown crops; the sowing rate of seeds of the same meter is set due to the parameters of the drive, in particular the gear ratio, from the support wheels 2 and from the rolling rollers 7. In the compartments of the seed boxes 3, the seeds are filled in accordance with the depth of their placement in the soil provided by pairs of deformers 9 and 10, in the seed boxes 4, taking into account the seeding of seeds to a depth of a ₄ , if necessary, the depth of penetration into the soil of the half-shaped openers 5 is adjusted in a known manner. When the device for sowing the movement of the runner 8 coulters by means of the cutting edges "a", then due to the thickness of the runner slots are formed in the soil. At the same time, the front soil deformers 9 squeeze arcuate channels on the sides of the slit at different depths a ₁ , ₂ and a ₃ , into which from the seed box compartments 3 by means of sowing devices, seed tubes 6, seed channels “c”, “d”, and "e" in the runners 8, cavities "b" in the deformers 9 receives seeds of three crops held in the channels for a moment by a moving runner (slit maker) 8. The second ones located on the same horizontal axis 1-1 and moving after the front deformers 9 deformers 10 of a pair at the expense of a larger size warping expand the arcuate channel, pressing the seeds into the soil; the presence of 10 hemispheres “g” on the back of the deformers promotes natural relaxation of the soil. The passage of the creeper openers 5 and the formation of a gap in the soil are completed by the formation of bevels “k”, “l” and thickenings “and” on the back lower part of the runners 8 of the expanded compacted bed with a depth of a ₄ . Before this, from the seed boxes 4, with the help of sowing devices, the seeds of the fourth agricultural crop are directed in a known manner through the channel "g", which are then pressed into the soil into the bottom of the slot. The cheeks 12, fastened with the insert 11, with bevels in their rear part, for some moment continue to maintain the shape of the cracks in the soil, and the thickening "and" on the insert 11 stabilizes the rectilinear opener (without yawing) 5. Filling the cracks together with the seeds of loose soil in lanes with (Fig. 1) is made by zagrotachi 13 (Fig. 12), rolling rollers 7 and finally soil levelers 14.

 Thus, the above information indicates the fulfillment of the following conditions when using the claimed invention: the claimed method and device for its implementation are intended for use in agriculture when sowing seeds, primarily multicomponent fodder crops, tier three or four crops in a row with their seeding depths into the soil; the possibility of carrying out the invention is achieved using known methods and means; the proposed method of sowing has high efficiency, achieved at all stages of the life cycle of plants, from sowing seeds, growing them to cooking and feeding the resulting feed, the method of sowing relates to intensive agriculture and at the same time favorably affects the soil; The technical result of the proposed device for implementing the method is achieved with simplicity of design, the use of known elements and is characterized by wide possibilities.

 Therefore, the claimed invention meets the requirement of "industrial applicability" under applicable law.

Claims (2)

 1. The method of sowing seeds of agricultural crops, including the formation of gaps in the soil with a compacted bed and sowing seeds in the gap tier - two crops in the same row - with their own depths of planting in the soil, characterized in that simultaneously with the formation of a gap in the soil and sowing in it the bed of one of the crops on the sides of the slit and at different depths, optimal for the corresponding seeds, squeeze out arcuate channels in the soil into which seeds are sown, held in the channels by a moving slitter, after which the seeds are pressed into the soil due to races the widening of the arcuate channels and fill up the gap along with the channels formed in it by loose soil.  2. A device for sowing seeds of agricultural crops, containing a frame with support drive wheels, seed boxes with sowing devices, creeper openers and seed tubes connecting the sowing devices with openers, and a drive from the wheels to the sowing devices, characterized in that the creeper openers are equipped with several pairs of soil deformers located on the sides and at different depths, made in the form of a cone cut along the axis, one of the pair of deformers is hollow and with an open base, its cavity is connected inena with the corresponding seminal canal, the second of the pair of deformers has a large base, the continuation of which is a hemisphere, both deformers of the pair are located on the same horizontal axis, the hollow deformer is located in front, and the tops of the cones of all deformers are directed towards the front of the cutting edge openers, each opener connected to individual seed boxes or seed box compartments with its metering unit, the number of which is equal to the number simultaneously seeding cultures, and the number of pairs deformers each coulter is one less than the number of simultaneously sown crops.

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