RU2218763C2 - Apparatus for applying of herbicide solution in garden strips adjoining to trunks - Google Patents

Abstract

FIELD: agricultural engineering, in particular, horticulture. SUBSTANCE: apparatus has carrier bar and spring-loaded rotary bar composed of rigidly connected main and additional levers, additional lever being oriented in advancement direction. Levers are arranged at an angle of 40-50 deg to one another and equipped with sprayers. Rotary bar has distributor providing for supplying of herbicide in succession to sprayers of main and additional levers for treatment of zone around plant. EFFECT: increased quality of treating strips in garden adjoining to trunks for one pass of apparatus. 8 dwg

Description

 The invention relates to agricultural machinery and can be used to mechanize gardening.

 A device for introducing solutions of herbicides in the near-trunk strip of the garden [1, p. 61-63], comprising a supporting frame with swivel rods fixed to the edges with sprays for spraying solutions. The slewing rods are installed in such a way that in operation they move in close proximity to the rows, and when meeting an obstacle they are deflected. The gaps between the trunks in a row are processed by spraying the solution with extreme sprayers.

 The disadvantage of this device is that each row must be processed in two passes, and due to inaccuracies in driving in the row there are unprocessed areas - blemishes. In addition, the solution of the herbicide falls on the tree stands, which is unacceptable according to modern agrotechnical requirements.

 A device for introducing solutions of herbicides into the trunk of the garden [2], containing a supporting beam and a rotary rod with sprayers. In operation, the swing rod is in the row line. The herbicide solution from the tank is fed through a hose to the swing rod and sprayed under the trees through the sprayers. When the unit moves, the rotary bar, touching the tree, deviates back, and then returns to its original position with a spring.

 The disadvantage of this device is that when you go around the rotary bar of a fruit tree and return it to its original position, a significant untreated area remains behind the strain - a flaw. Therefore, for complete processing of the near-trunk strip, an additional passage along the adjacent row spacing is necessary, and it is necessary in the opposite direction.

 A device is known for applying herbicides in rows of crops in a single pass, where a spring-loaded swing rod is made of the main and additional levers mounted on the same axis of rotation and located perpendicular to each other, and also has one valve, which ensures the sequential supply of the herbicide to the sprayers of the main and additional leverage to handle the area around the plant. When meeting with a tree, the rod rotates, and an additional lever processes the zone behind the stem [3 - prototype].

 The disadvantage of this device is the presence of flaws on the sides of the booms in a direction perpendicular to the row. With the exception of the entry of herbicides on the stems, flaws become significant.

 The purpose of the invention is the treatment of the trunk of the garden with herbicides in one pass without blemishes.

This is achieved by the fact that the main lever of the rotary rod is located at an angle of 40 ... 50 ^o to the additional lever, oriented along the direction of movement, and the length of the additional lever is equal to the width of the herbicidal strip formed by the main lever.

 Figure 1 is a rear view of the device; figure 2 is a top view of the device; figure 3 is a section along aa in figure 1; 4-7 are diagrams of successive positions and the order of inclusion of nebulizers when bypassing the stem; Fig. 8 is a diagram for substantiating the angle between the levers of the swing rod.

A device for introducing solutions of herbicides into the trunk of the garden contains a supporting beam 1, a spring-loaded rotary rod made of rigidly connected main 2 and additional 4, oriented along the direction of movement of the levers located at an angle of 40 ... 50 ^{o to} each other, with sprayers 3, 5. The rod is mounted on the valve 6 with the possibility of rotation around its axis, mounted on the beam 1. The solution of the herbicide from the tank (not shown) through the hose 7 is fed to the distributor 6 and then through the channel system to the races to the dusters 3 of the main lever 2. In the initial position, the rotary rod is oriented by the additional lever along the direction of movement of the unit and is held by the spring 9, the channel for supplying the herbicide solution to the sprayers 5 of the additional lever 4 is blocked by the valve 6.

 The technological process of the device for introducing solutions of herbicides into the trunk of the garden is as follows. When the unit moves, the pivot rod is located in the near-barrel lane. The herbicide solution enters the main lever 2 and sprayers 3 are sprayed onto the soil. When approaching the tree, the rotary rod with the lever 2 is in contact with the stem 8 and begins to turn. When the main lever 2 occupies a position perpendicular to the direction of movement of the unit, its channel is blocked by the distributor 6, and the nozzles 3 are turned off. By this time, the channel of the additional lever 4 is open, and the herbicide solution is supplied to the nebulizers 5, which process the zone behind the stem. After the descent of the main lever 2 from the stem 8, the rotary rod by the force of the spring 9 returns to its original position. In this case, the distributor 6 closes the channel of the additional lever 4, and the herbicide solution is again supplied to the sprayers 3 of the main lever 2. At the next tree, the cycle repeats.

When the unit moves along rows of stands, its deviations from straightness are inevitable, which reach the value ± Δh = 3σ, where σ is the standard deviation, σ = 8.15 ... 8.72 cm [4]. Both swing arm levers spray the herbicide solution down and back. Moreover, the length of the additional lever is equal to the width of the herbicidal strip formed by the main lever. To avoid flaws when deviating the aggregate to the extreme position, it is necessary that the equality d / 2 = (H / 2-Δh) • tg (β / 2) is fulfilled, where d is the diameter of the stem, which in fruit trees in intensive orchards by the end of depreciation reaches 20 cm; H is the width of the herbicidal strip (usually 1 m). From this relation we can find the angle β = 2arctan {d / [2 (H / 2-Δh)]}. Substituting the values included in the formula, we determine that β ≅ 50 ... 40 ^° . The angle between the main and additional levers is determined from a simple ratio α = 90 ^° -β. Therefore, the angle α = 40 ... 50 ^° is optimal.

Sources of information
1. Veletsky I.N. Technology of application of herbicides. - 2nd ed., Revised. and add. - L .: Agropromizdat. Leningrad Department, 1989, - 176 p., ill.

 2. Processing trunks strips herbicides // Technique in agriculture. - 1979. - 3. - S. 79.

 3. SU 1470219 A1, A 01 M 7/00, 04/07/1989.

 4. Manaenkov K.A. The protective zone of the rows of apple trees during tillage in intensive gardens // Horticulture and Viticulture. - 3. - 2000. - S. 7-8.

Claims (1)

A device for introducing solutions of herbicides into the garden near-trunk strip, containing a supporting beam, a spring-loaded rotary rod made of rigidly connected main and additional levers equipped with sprayers oriented along the direction of movement, as well as one hydraulic distributor that provides the sequential supply of the herbicide to the main sprayers and additional levers, characterized in that the main lever of the rotary rod is located at an angle of 40 ... 50 ° to the additional lever, while additional lever herbicidal equal width strips formed by the main lever.

Images