RO125810B1 - Mechanical rotary hoe with tensible spring - Google Patents

Description

The invention relates to a mechanical, rotary screed, with tension spring and concave fangs, attachable to any type of cultivator, intended for breaking the crust and superficial loosening of the soil, on the rows of weeding plants, in the first stages of growing crop plants.

Rotary screeds are known as distinct equipment, adaptable to field conditions, used in tillage, in order to break the crust that forms as a result of heavy rains of short duration, followed by drought, to favor the emergence of plants in weeding crops, prevention soil erosion and water retention in the soil.

A known rotary screed includes a frame fixed between a structure of two active, rotating elements with concave radial corners in the direction of travel. The connection to the drawbar is made by a vertical support, to which is connected, at the bottom, a support arm of the structure of the rotating screed, which oscillates vertically. At the other end of the support arm, the screed structure is formed by an ear, formed by the lower V-shaped bar, at the ends of which are the two active elements with radial fangs, axially offset, of discoidal format, fixed to the bar, through an axis, and a box that revolves around the axis, on a bush. The structure is tensioned by an adjustable, notched bar. A series of pairs of notches, from the upper end of the adjustable bar, being separated by another series of notches along the length of the bar towards the lower end, each notch extends vertically and transversely on the adjustable bar. On the adjustable bar, there is a helical spring and some adjustment clamps, which are attached to an ear on the support arm and to the upper end of the vertical support by a bushing and a clip. These rotary screeds are mounted grouped in sets of at least two structures, at least two vertical supports having two clamping ends, the supports being separated transversely, from each other, on the drawbar.

Also known from the document US 4312409, a mechanical, rotary screed, whose active working members are represented by concave-shaped fangs, with the drilling tips bent in the direction of rotation of the box on which they are mounted. Each screwdriver is mounted on the machine frame, by means of a tension rod, which has a helical spring, which allows, by means of adjustment clamps, to establish the working depth of the screwdriver, as well as adjusting the pressure of the active elements during work, depending on the resistance of the ground to the machine.

Also known from US 4241793 is a rotary screed, provided with a set of four cassettes, mounted on a common frame, with active organs such as concave-shaped fangs, with the tips bent in the direction of rotation of the drill box. The connection of the common frame of the four boxes with the machine frame is made by means of side members and a tensioning rod with helical spring, which slides between two stops mounted on the rod, which allows changing the pressure of the active parts during work, in depending on the resistance of the ground to the machine.

These rotary excavators, as components of a machine, have the disadvantages that the strip dug by the active elements with fangs is narrow, for an efficient digging at least two screeds are needed, and the efficiency in digging the soil is quite low, due to the way the fangs of the hoes engage contact with the ground.

The technical problem that the invention aims to solve consists in the realization of a rotary screed with simple construction and that allows the breaking of the crust and the superficial loosening of the soil, on the rows of weeding plants, in the first vegetation phases of the crop plants, without causing their injury.

The main technical features of the invention are set out in independent claim 1.

RO 125810 Β1

The main advantages of the rotary screed according to the invention are the following: 1

- allows the breaking of the crust and a superficial loosening of the soil, on the rows of weeding plants, in the first phases of growth, which ensures the plants favorable conditions for 3 development;

- has a simple construction and can be attached to any type of cultivator, 5

- does not harm the crop plants and ensures a favorable aerohydric regime in the soil.

Next, an embodiment of the mechanical, rotary screed with tensionable spring and concave fangs according to the invention is shown in connection with FIG. 1 ... 4, which represent: 9

- fig. 1, side view of the rotary screed, with tension spring and concave fangs in working position; 11

- fig. 2, top horizontal view of the rotary screed with tension spring;

- fig. 3, rear view of the screed, rotary, with tension spring, with section through the box and the drilling shaft; 15

- fig. 4, overview of the mechanical, rotary screed, with tension spring, placed between two hoes.17

The mechanical, rotary screed, with tension spring and concave fangs, for breaking the crust and superficial loosening of the soil, on the rows of weeding plants, is attachable on the 19th side member 1, of the cultivator, in three attachment points. The attachment points a1, a2 and c1 are established on the side member 1, so that the screed works on the row of plants. In the two 21 side clamping points a1, a2, two couplings are welded, each composed of a clamping lug 2, welded to the side member 1, through which passes a fixing screw 3. On this screw, 23 secured with Grower washer 4, nut 5 and sprint 6, pass the bushing frame 7 of the screed. At the central clamping point c1, a coupling is formed consisting of the rod coupling 8 and the clamping lug 9 of the tensioner. As a whole, the rotary screed, with tension spring and concave fangs, consists of a frame 7, with fixed sides a, b, welded at a 27 obtuse angle, an assembly side c, approximately parallel and equal to the side a and the screwdriver assembly D. The assembly side c is composed of the helical spring 10, mounted on the tension rod 29, which, at one end, articulates by screwing with the coupling 8, and the other end, provided with a stop, slides in the bushing b1, welded, at a certain angle, on frame 7. On 31 tension rod 11, there is a length of 2/3 threaded towards the central clamping point c1 and 1/3 of the length not threaded towards the bushing b1. On the threaded side of the tensioning rod 11, 33 are mounted the helical spring 10, two springs 12 for adjusting the tension of the spring 10, the rod coupling 8 with threaded hole and the fixing nut 13 of the rod. The frame 7 of the screed, together with the tension rod 35 11, oscillates in the gripping points a1, a2 and c1, in a vertical plane, moving in the up-down direction, a movement dictated by the action of the drill D, set in motion by the force of traction. 37 The screwdriver D is composed of screwdriving elements 14, which are welded to the box 15, of the screwdriver D, which rotates on the two radial bearings 16, provided with a bearing 39 bearing 17 and a sealing element 18. Using the two screws 19 , which pass through the two holes drilled in frame 7, in the joint area of the sides a, b, and are screwed in 41 axis 20, the drill D is fixed to the frame 7 of the screed. Thus assembled and adjusted to the working depth, by means of the tensioning rod 11, tensioned by tightening the nuts 43 towards the helical spring 10, the mechanical, rotary screed, under the action of constant traction force, respectively, speed ll and lll. of the tractor, the digging and loosening of the soil begins, which is 45 thus produced. Screwdriver D, driven into the ground with a row of fangs at the adjusted working depth, under the action of traction force, acquires a rotational motion in the direction of 47

EN 125810 Β1 advance of the traction force, so that the next row of corners approaches the surface of the earth, and under the action of an opposite force, of soil resistance, the frame 7al of the screed is 3 raised upwards, and thus the bush b1 moves to the point of central grip c1, compressing even more the helical spring 10. It creates a force F, which presses on the frame 5 of the screed, and which composed with the gravitational force of the screed of mass m, leads to the penetration of the fangs into the ground. As they enter the soil, the previous fangs emerge from the soil, and 7 due to the radius of curvature of the tip of the fangs, the earth is upset, loose. then the phenomenon is repeated, and depending on the resistance to penetration of the soil, the frame is pressed 9 harder or weaker by the opposite force F, which is also higher or lower, and thus a digging of the soil is performed, at a depth given by the initial setting.

Claims (2)

Claims 1 1. Mechanical hoe, rotating, with tension spring, mounted on the stringer (1) 3 of the cultivator, so that the hoe works on the row of weeding plants, presenting a frame (7) on whose fixed sides (a, b) is mounted a screwdriver (D) by means of two 5 screws (19) passing through holes in the frame (7), located in the joint area of the fixed sides (a, b) of the frame (7) and screwed into the shaft (20) of the drill (D), provided with 7 drilling elements (14) in the form of concave corners, curved, towards the forward direction, welded on the circumference of the box (15) of the drill (D) and rotating on two bearings 9 radial (16) , provided with bearing cover (17) and sealing element (18), characterized in that, on the lower side of the cultivator side member (1), in two lateral attachment points 11 (a1, a2), two attachment ears are welded (2), to which the bushings of the fixed sides (a, b) of the screed frame (7), welded at an obtuse angle, are coupled, joined by an upper transverse bar 13, of a length equal to the axis (20) of the drill (D), in the middle of the upper transverse bar, a bush (b1) being welded, and in a central clamping point (c1), 15 located at the rear of the side member (1), halfway between the lateral attachment points (a 1, a2) of the screed frame (7), is welded a coupling consisting of a rod coupling 17 (8) and an ear (9) ) gripping, between the bushing (b1) and the central gripping point (c1) being mounted an assembly side (c), which constitutes the screed tensioning device, by 19 moving the bushing (b1) to the central gripping point (c1), due to the unevenness of the ground on which the drill (D) moves, the helical spring (10) is tensioned differently, 21 being created a variable tensioning force (F), which presses on the frame (7) of the screed. Tensile spring rotary screed according to Claim 1,23, characterized in that the screed tensioner, represented by the assembly side (c), consists of a helical spring (10) mounted on a rod tensioner (11), 25 threaded 2/3 of the length, to the central clamping point (c1) on which there are adjusting nuts (12) and a fixing nut (13), and not threaded 1/3 of the length to the bushing (b1), at 27 whose end a stop is welded.