RU2040137C1 - Method for cultivation of potato - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves preparation of soil, placement of tubers and fertilizer, covering of tubers and preemergence harrowing in one pass of the harrow. 30-35-g tubers are planted 10-15 mm deep at the rate of 160 thou tubers per hectare. Fertilizer is 2-3-year humus or river ooze used at the rate of 200-300 g per tuber. EFFECT: higher efficiency. 2 cl, 1 dwg, 1 tbl

Description

 The invention relates to agriculture, and in particular to methods of growing potatoes.

 A known method of cultivating potatoes, which consists in the fact that the planting of potatoes and fertilizing is carried out simultaneously in joint holes located in a checkerboard pattern and having a curved profiling bottom. The seeding of the holes is carried out by the formation of a hole-ridge surface after planting, and the tubers are harvested by digging a layer of soil on both sides of the potato bushes and feeding it for separation. The circular hilling of each potato bush was applied (ed. St. USSR N 1591833, class A 01 B 79/02, 1990).

 The disadvantages of this method are the negative effects of soil compaction during the passage of agricultural machinery, the need for hilling, the need for high labor costs (soil preparation, cutting furrows, planting, embedding, hilling).

 Closest to the proposed one is a method of growing potatoes, involving pre-planting cultivation of the soil, introducing humus into the planting nests, planting and planting tubers, as well as pre-emergence harrowing.

 The disadvantages of this method are the negative effects of soil compaction during the passage of agricultural machinery, as well as the high labor costs in the implementation of the method.

 The objective of the invention is to develop such a method that would increase yield while significantly reducing labor costs for growing potatoes.

 The problem is solved using the features listed in claim 1 of the claims. According to these characteristics, soil preparation, laying of tubers, fertilizing and embedding of tubers and harrowing are carried out in one pass of the unit, while tubers weighing 30-35 g are used for planting and they are planted to a depth of 10-15 cm with a planting density of 160,000 tubers per 1 ha .

 According to claim 2 of the claims, 2-3-year-old humus or river sludge in the amount of 200-300 g per tuber is used as fertilizer.

 A sufficiently dense planting of potatoes does not allow weeds to grow, therefore, the hilling operation is excluded, which significantly reduces the labor costs of growing potatoes. The proposed method reduces row spacings and eliminates the negative effect of soil compaction during the passage of agricultural machinery.

 The drawing shows a device for implementing the proposed method.

 A soil treatment device comprises a ploughshare, a conveyor, a metering hopper equipped with a vehicle made in the form of a caterpillar belt that is connected through a conveyor belt to an engine mounted on the frame. The ploughshare is made movable, and the interaction unit of the conveyor and caterpillar tapes in the form of squares placed on the conveyor belt in contact with the protrusions of the caterpillar tape and the ploughshare. Equipping the device (hereinafter referred to as the unit) with an engine with the original interaction unit of the transporting and two caterpillar tracks allows increasing maneuverability and expanding the unit's functionality (plowing, loosening, landing). The unit is equipped with a movable share and a conveyor belt, which allows you to adjust the depth of plowing and loosening of the soil located on the share and belt during movement. Equipping the unit with interchangeable metering hoppers with a planting apparatus allows you to plant seeds and introduce humus or fertilizer into the soil.

 The method of growing potatoes is as follows.

 The pre-selected seed weighing 30-35 g (each tuber), with a total mass of 160,000 tubers per 1 ha, as well as humus or river sludge at the rate of 200-300 g per tuber are loaded into the hoppers of the unit.

 When the unit moves with a share 1, a layer of soil 2 is cut and fed to a conveyor belt 3, which moves the soil 2 under the planting apparatus 4. The depth gauge 5 is the front point of support of the unit. Before planting potatoes, the depth gauge 5 (at the boundary) rises to a predetermined distance (i.e., 25 cm) corresponding to the depth of plowing.

 When moving forward, the unit goes deeper into the soil, the depth gauge 5, touching the soil surface, starts to rotate and through the drive 6 starts to rotate the rollers 7 of the planting apparatus 4. The rollers 7 have hollows in which the potato seeds and humus fall, which are simultaneously through the pipeline 10 installed to the planting depth (10-15 cm), fall into the soil. When the unit exits to the opposite between the depth gauge 5 falls below the tip of the share 1, while the front of the unit rises and the unit unfolds for a reverse stroke. The unit operates in shuttle mode. The share 1 is installed with the possibility of vertical movement through the support 11 due to the interaction of its upper end with the elbows 12 of the conveyor belt 3. The engine 13 mounted on the frame 14 through the drive 15, the chain gear 16, drives the conveyor belt 3, which, in turn, , through the squares 12 and the protrusions of the caterpillar track 17 drives the unit as a whole in the forward direction.

 The conveyor belt 3 and the caterpillar track 18 are placed on rollers 19-23, which are mounted through closed-type bearings on the frame 14. The depth of immersion of the share 1 in the soil 2 is regulated by a drive 24 (optimally 20-25 cm). The planting apparatus 4 and the hoppers 8 and 9 are removable and are replaced depending on the method of planting and culture. Behind the planting apparatus 4, a mounted harrow (not shown) is mounted on the frame 14.

 During operation, the unit does not compact the soil, loosens the upper and lower layers, which allows capillary moisture to freely rise to the root system. The unit does not overturn the reservoir, thereby retaining spring moisture.

 The proposed method eliminates soil compaction, does not require hilling, two-year planting experience has shown good results.

 The table shows comparative data on the effectiveness of the known and proposed methods for planting potato tubers.

Claims (2)

 1. METHOD OF POTATO GROWING, including soil preparation, local fertilization, planting and planting of potato tubers, as well as pre-emergence harrowing, characterized in that all operations for preparing the soil, laying tubers, fertilizing, planting tubers and pre-emergence harrowing are carried out in one pass unit, while for planting use tubers weighing 30 35 g and plant them to a depth of 10 15 cm with a planting density of 160,000 tubers per 1 ha.  2. The method according to claim 1, characterized in that as fertilizers use 2 3-year-old humus or river sludge in an amount of 200 300 g per tuber.

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