RU2316961C1 - Combined hand-held apparatus for removal of weed plant - Google Patents

Abstract

FIELD: horticulture, in particular, hand-held technique used for soil cultivation in gardens by cutting-off weed plants by the roots and raking in piles.

SUBSTANCE: combined apparatus has rake type working tool, cutting blade, and shank. Rake type working tool has a number of curved teeth connected to rake base. Cutting blade is connected over its front surface with rake base by means of members for adjusting their relative position in longitudinal axial direction of apparatus. When apparatus is used as cutting tool, it rests upon ground surface with curved part of two outer teeth of rake type working tool, while free ends of teeth are raised above soil surface without hindering advancement of apparatus. Blade is positioned between supporting outer teeth so as to form in conjunction with ground surface angle determined by value of main rear angle ranging between 7 deg and 25 deg during operation of apparatus. On rotation of apparatus through 180 deg it is used as common rake.

EFFECT: increased efficiency and wider operational capabilities of apparatus.

3 cl, 5 dwg

Description

The invention relates to agricultural, in particular to garden manual soil cultivating implements for removing weed vegetation from the soil surface by cutting it to the root and raking it in heaps for subsequent harvesting.

Known manual hoe (the more common name is “loopback pololnik”), containing a working body in the form of a folding rectangular frame (see RF patent No. 2038711, IPC 6 A01B 1/06, priority dated January 29, 1992). The upper base of the frame is connected to the hoe handle and is made in the form of a U-shaped bracket. In the lower part of the frame there is a U-shaped blade with holes at the ends, which forms with the U-shaped bracket a movable connection with a rotation angle of 12 ° -30 °, made by means of two cylindrical pins. The movable connection of the working body provides the possibility of two-sided soil cultivation by the weed, as the “floating blade” automatically sets the angle of entry into the soil, the mode of loosening and cutting of the roots. During work, the pololnik is pulled towards him and pushed away from him, gently pressing the handle of the handle. Loop pololnik is cutting and loosening the top layer (1-3 cm) of cultivated soil with simultaneous weeding of growing weeds. The disadvantage of the loopback pololnik as a cutting tool, should be considered its lack of versatility. As experience shows, pololnik is rationally and conveniently used for regular loosening of soil and weeding on beds between rows of plants, as well as in processed near-stem circles of fruit trees and shrubs. Work in more difficult conditions, such as cleanliness in neglected areas (overgrown with thick grass), when weeding passages between beds, when working on heavy loam, in accordance with the principle of the well-known loop pololnik, requires unacceptably large physical efforts with simultaneous risk its breakdown.

Another tool for cutting weeds with the name chopper-scraper is also known, containing a rectangular blade mounted on a shelf of a standard steel corner, the handle is rigidly attached to another shelf at an angle of 90 ° to the plane of the blade (see the book “Garden and vegetable garden without unnecessary trouble ”, Author: P. Trannoy,“ ACT-PRESS SKD ”, 2002, p. 9). Blade sharpening is made on one long side from the outside. The working movement when working with a hoe-scraper is the translational movement of the blade on the soil surface in the direction toward itself. At the same time, a scraper chopper scrapes weeds from the soil surface like a razor. The cutting angle during operation varies approximately from 30 ° to 50 °. During the return movement, the blade of the chopper-scraper evens out the upper, thin layer of earth that was cut along with the weeds. A disadvantage of the known chopper-scraper is the need during operation to press on top of the handle (or on the working body) with an effort sufficient to cut weeds. In order to partially compensate for this drawback, the author has proposed a method for artificially weighting a tool, for example, by making a handle from a steel pipe. But as practical experience shows, this is insufficient and only helps when working in areas relatively clean of weeds.

The closest in technical essence to the claimed device is a combined cutting and raking tool containing a cutting blade, a lot of curved raking teeth and a handle (see GB patent No. 2234657, IPC A01B 1/20, priority dated 08/12/1989). The cutting blade is installed next to the teeth and is parallel to the straight side of the teeth. As a cutting tool, the tool is used when the teeth with their curved part rest on the ground. In this case, the cutting blade of the implement is supported by the soil surface at a height suitable for cutting weeds. The distant ends of the curved raking teeth are raised from the soil surface and do not impede the working advance of the implement. When the gun moves forward, the curved parts of the teeth slide on the ground and the cutting blade cuts off weeds growing in the way it moves. If desired, the curved parts of the tines can be pressed into the soil so that the cutting blade cuts weeds at or below the surface of the soil. After the tool is rotated around the longitudinal axis by 180 °, it can be used as a conventional rake to collect cut weeds in heaps by means of the protruding distant ends of the curved teeth. However, when using a known tool as a cutting tool, in some cases there are reasons that reduce its effectiveness. This is manifested in particular when cutting young and thin weeds or grass with narrow leaves (wheat grass, bluegrass and others). Firstly, the height of the cutting edge of the blade relative to the soil surface, and therefore relative to the root necks of the weeds in a known implement, is set and maintained using the curved part of the teeth resting on the ground. The adjustment of this height during operation is carried out by working by changing the angle of inclination of the handle of the implement relative to the ground in the range from 10 ° to 40 °, and the smallest distance from the cutting edge to the ground is obtained when the blade touches its lower plane of the soil surface, that is, at the smallest angle tilt handle. The height of the cutting edge must be reduced by reducing the height and thickness of the cut weeds. For reliable cutting of young and thin weeds or grass with narrow leaves, it is necessary to reduce this distance to zero. However, taking into account irregularities (protrusions and depressions of various types) always present on the soil surface, the level of the blade cutting edge location for many of the weeds indicated and growing in the hollows of the weeds is overestimated, as a result of which the grass and thin weed vegetation bend and remain bent and remain above the root neck not cut off. That is, instead of guaranteed cutting and removal, weeds are bent and “smoothed” at the place where they grow, with a high probability of recovery and subsequent straightening after some time. Secondly, when the cutting blade moves on the ground within its working path (with the working position unchanged), the angle of the handle of the implement automatically changes. The smallest angle of inclination will be at the end of the working path, that is, with the greatest distance of the cutting blade from the working gardener. This circumstance complicates and complicates the process of maintaining by the working gardener the selected location of the cutting edge of the blade relative to the soil surface, which also leads to a decrease in the reliability of cutting young shoots of weeds. Thirdly, the reliability of cutting said weed vegetation on an uneven surface of the soil increases when the curved parts of the teeth of a known implement are pressed into the soil. In this case, weed cutting is carried out at the level of the soil surface or below the surface level, that is, with a partial deepening of the blade into the soil. However, in practice, this technique is possible when working only on previously cultivated loose plots of land, for example in beds, when additional physical efforts to indent the teeth and deepen the blade of the gun are insignificant and permissible. The use of a known tool for cutting weeds in other more difficult areas, for example, on hard trodden ground of aisles, or in dry soddy areas is not possible due to the need to apply considerable physical forces to the handle of the tool for pressing and deepening the supporting parts of the teeth into the soil and especially when deepening a flat blade parallel to the surface of the soil.

The technical problem to which the claimed invention is directed is to increase efficiency when using a tool as a cutting tool in the process of cutting weeds by eliminating these disadvantages of a known tool due to a more rational layout of its components.

The problem is solved in that the combined hand tool for removing weeds contains a rake working body with a series of teeth having a curved shape and rigidly connected to the rake base, a cutting blade located in close proximity and parallel to the rake base so that when using the tool as a cutting tool for cutting weeds, the free ends of the teeth of the rake working body are raised above the soil surface, and when using tools as a hornbeam the free ends of the teeth interact with the soil surface, and the handle, when using the tool as a cutting tool for cutting weed vegetation, the tool rests on the ground with a curved part of the two extreme teeth of the rake working body, and the cutting blade is installed between the supporting extreme teeth of the rake working body so that for the average angle of inclination of the handle of the implement during operation, the front surface of the blade passes through the points of contact of the support curved parts of the extreme teeth with the soil surface, while the main When operating, the outer corner formed by the soil surface and the main rear surface of the blade has a value from 7 ° to 25 °, the cutting blade along the front surface being connected to the rake base by adjusting their relative position in the axial longitudinal direction of the implement. The protrusion of the curved supporting part of the two extreme teeth of the rake working body relative to the front surface of the cutting blade has a value of b≈0.15R, where R is the radius of curvature of the supporting part of the extreme teeth. The handle of the gun is rigidly connected to the cutting blade by means of a transition tube.

The common features of the claimed invention and the known combined cutting and raking tools is the presence of a rake working body having a series of curved teeth rigidly connected to the rake base, a cutting blade located in close proximity and parallel to the rake base so that when using the tool as a cutting tool for cutting weeds, the free ends of the teeth of the rake working body are raised above the soil surface, and when using tools With a rake, the free ends of the teeth interact with the surface of the soil and the cuttings.

New significant features in the claimed invention are:

- when using the tool as a cutting tool for cutting weeds, the tool rests on the ground with a curved part of the two extreme teeth of the rake working body;

- when using the tool as a cutting tool for cutting weed vegetation, the cutting blade is installed between the supporting extreme teeth of the rake working body so that for the average tilt angle of the tool handle during operation, the front surface of the blade passes through the touch points of the supporting curved parts of the extreme teeth with the soil surface;

- when using a tool as a cutting tool for cutting weeds, the main rear angle formed by the soil surface and the main rear surface of the blade, when working, has a value from 7 ° to 25 °;

- the cutting blade along the front surface is connected to the rake base by means of elements for adjusting their relative position in the axial longitudinal direction of the implement;

- the protrusion of the curved supporting part of the two extreme teeth of the rake working body relative to the front surface of the cutting blade has a value of b≈0.15R, where R is the radius of curvature of the supporting part of the extreme teeth;

- the handle of the gun is rigidly connected to the cutting tool through the adapter tube.

The presence of these new significant features informs the claimed combined hand tool for removing weed vegetation following advantages. The introduction of elements for adjusting the relative position of the cutting blade and the rake working body allows, depending on the nature of the area to be cleaned and weed vegetation, to pre-set the weed cutting mode - with a partial deepening of the blade into the surface soil layer or without deepening. The cutting blade in the proposed implement design is installed at an angle to the surface of the soil. The value of the main rear angle during operation varies from 7 ° to 25 °. This ensures easy penetration of the blade when working even in hard soil or turf, the absence of slipping of the blade on the surface of the earth and the cutting of weeds in the region of the root necks or slightly lower together with a small layer of soil. The thickness of the top soil layer to be cut along with the weeds is determined by the adjustment elements and is kept the same during operation by installing the blade between the supporting extreme teeth of the rake working body in such a way that for the average tilt angle of the tool handle during operation the front surface of the blade passes through the contact points of the supporting curved parts of the extreme teeth with the soil surface, and the protrusion of the curved supporting part of the extreme teeth of the rake working body relative to the front surface of the cutting blade has led rank b≈0,15R. As practical experience shows, while ensuring the indicated stability of deepening, cutting together with weeds of the upper soil layer does not require significant physical effort. This completely eliminates the additional effort to indent the teeth into the soil, as is required in the case of using the prototype. When choosing and using the weed cutting mode without deepening the blade into the soil, the gap between the cutting edge and the soil surface is also maintained stable throughout the working path of the blade movement, which also increases the reliability of cutting.

In Fig.1 shows a combined hand tool for removing weed vegetation in Assembly, General view; figure 2 is the same, a perspective view; figure 3 - section aa in figure 1, is rotated to the working position when cutting weeds; figure 4 is a view of B in figure 1, is rotated to the working position when raking weeds; figure 5 is a design diagram of the construction of the shape and location of the supporting part of the extreme teeth of the rake working body.

Figure 5 and partially in figure 3 are indicated:

R is the radius of curvature of the supporting part of the extreme teeth of the rake working body;

O ₁ is the center of curvature of the arc with radius R;

Ψ _cf - the average value of the angle of inclination of the handle in relation to the surface of the earth;

δ is the cutting angle;

β is the angle of sharpening of the cutting blade;

α is the main rear corner;

h is the difference in height along the position of the cutting edge of the blade relative to the surface of the soil when cutting weeds;

b - the protrusion of the curved supporting part of the teeth relative to the front surface of the blade.

The combined hand tool for removing weeds contains a rake working body 1 with a number of teeth 2 and 3 having a curved shape and rigidly connected to the rake base 4, a cutting blade 5 located in close proximity and parallel to the rake base 4, and a handle 6. Cutting blade 5 on the front surface 7 is connected to the rake base 4 by means of adjustment elements 8. Adjustment of the relative position of the cutting blade 5 and the working body of the rake 1 is carried out in the longitudinal axial direction and implements, which in the considered example of implementation of the claimed invention are made using screws 9, wing nuts 10 and longitudinal grooves 11 cut in the rake base 4. Two extreme teeth 2 of the rake working body 1 are abutment and protrude beyond the cutting blade 5 in the transverse for guns direction. The shape of the bend of the teeth 2 and 3 of the working body of the rake 1 differ from each other. When using tools as a cutting tool for cutting weeds, the curved parts of the extreme teeth 2 rest on the soil 12, and the free ends of the teeth 2 (as well as 3) are raised above the soil surface. When the implement moves forward, the supporting parts of the extreme teeth 2 slide on the ground and the blade 5 cuts the weeds in its path. When the blade moves forward within the working path with the working position unchanged, the angle of inclination ψ of the implements of the implement relative to the ground, the cutting angle δ and the main rear angle α decrease, and the point of contact of the supporting part of the teeth 2 with the ground moves from the initial position 13 to the final position 14 .When the length of the working path of the blade is 500 mm and the length of the handle 6 is 1250 mm, the change in the angle of inclination of the handle Δψ, cutting angle Δδ and the main rear angle Δα will be the same and approximately equal to: Δψ = Δδ = Δα≈16 °. The position of the cutting edge of the blade 5 in height relative to the surface of the soil 12 when cutting weeds also changes. This change within the working path of the blade will be minimal if the front surface 7 of the blade is located passing for the average angle of inclination of the handle of the implement when working through the midpoints of contact 15 of the supporting bent parts of the extreme teeth with the soil surface. Structurally, this is ensured by the protrusion of the curved supporting part of the teeth 2 with respect to the front surface 7 of the blade 5 by the amount of:

b = R · [1-sin (90 ° -δ _cp )], where

δ _cf is the average value of the cutting angle, δ _cf = δ _min + 0.5 · Δδ = (α _min + β) + 8 °, where δ _min is the smallest value of the cutting angle during the cutting of weeds, α _min is the minimum value of the main back angle.

The minimum value of the main rake angle α _min = 7 ° ÷ 10 ° was established empirically, based on the fact that, when the value of the main rake angle decreases, the cutting of the blade into the soil becomes difficult when cutting weeds in the mode with partial deepening of the blade, which leads to slipping of the blade over the surface soil, and therefore reduce the efficiency of cutting. For the tool in question, the value of α _min taken equal to 7 °. The angle of sharpening of the blade is accepted as standard for hoes, i.e. β = 15 ° with a tolerance of + 5 °. Therefore, δ _cp = α _min + β + 8 ° = 30 ° ÷ 35 °, and the protrusion of the curved supporting part of the teeth 2 with respect to the front surface 7 of the blade 5 is determined from the ratio b≈0,15R.

The value of the difference in the position of the cutting edge of the blade in height relative to the soil surface within the working path is 500 mm: h = R · (1-cosΔδ / 2), at R = 20 mm, h = 0.2 mm. The calculated insignificant change in the position of the cutting edge of the blade in height during operation confirms the possibility of using the proposed technical solution for the location and installation of the cutting blade with respect to the supporting curved part of the extreme teeth. This solution automatically maintains the set depth of the blade penetration into the soil or the gap between the cutting edge and the soil surface over the entire length of the working path of the blade.

The teeth 3 of the working body of the rake 1 are only raking, the bent ends of which together with the ends of the teeth 2 are located in a line parallel to the cutting edge of the blade. When using the tool as a rake, they interact with the surface of the earth, and when using the tool as a cutting tool, the free ends of the teeth 3 are the same as the free ends of the teeth 2 are raised above the soil surface. The handle 6 is rigidly connected to the cutting blade 5 by means of the adapter tube 16.

Work tool is as follows. Depending on the nature of the removed weed vegetation and on the state of the soil surface before work, the level of the location of the cutting edge of the blade relative to the soil surface is set. To do this, the tool in the working position for cutting weeds is installed and fixed on a flat surface. Then, using the adjustment elements 8, the necessary incision rate into the soil or the necessary clearance between the cutting edge of the blade and the soil surface is set. The process of cutting weed vegetation is carried out either by continuously moving the cutting blade of the implement over the cultivated area, if there are few weeds or they are still not large enough, or by periodically hitting the implement forward, in case of larger weeds or in case of a more neglected area. When the weeds are cut in this way, the implement can be rotated 180 ° around the longitudinal axis and then used as an ordinary rake to collect the cut weeds in heaps by means of the protruding distant ends of the curved teeth 2 and 3. In this case, the blade 5 is raised above the ground and does not participate in collective process.

Compared with the prototype in the inventive combined hand tools for removing weeds, issues related to the use of tools as a cutting tool, in particular when cutting young and thin weeds or grass with narrow leaves, are solved as follows. The beds are cleaned from young weed growth with a set zero clearance between the cutting edge and the treated surface. Moreover, the cutting of weeds growing in depressions is provided by analogy with the prototype, that is, by pressing the supporting teeth to the required depth and cutting together with the weeds of the upper soil layer. It was also noted above that for loose soil of beds, this technique is acceptable, since it does not necessitate the application of significant physical effort. At the same time, in this case, the reliability of cutting weeds for the inventive tool increases, since the stability of the position of the cutting edge of the blade in the cutting zone increases, regardless of the angle of inclination of the handle. The tool according to the claimed invention can be used to remove weeds, including thin weeds and grass, from the soil surface of the trampled passages between the beds and other plantings, in soddy or neglected areas, in uncomfortable places (at the walls of buildings, at a fence or fence, between closely growing fruit trees and shrubs, at the edge of the road surface) and in other areas. In this case, the tool is configured to work in the mode of partial deepening of the blade into the soil. As experience shows, the depth for the reliable cutting of weeds should be set within 1 ÷ 1.5 mm. When working on soils with a hard or dense surface layer, only blades penetrate into the soil, the extreme abutment teeth glide freely on the surface and ensure a constant depth of penetration. When working on the turf, the supporting teeth also fall to the level of the soil surface, providing the cutting of the blade into the interweaving of the roots and rhizomes of plants. The resulting force of the gun working periodically striking forward is directed along the shank obliquely to the surface of the earth and in the cutting zone is distributed into two components - vertical and horizontal. The vertical component of the worker’s efforts, combined with the weight of the implement, contributes to the necessary deepening of the blade. As the practical experience of the declared tool shows, the application of additional downward-directed forces or special weighting of the gun is not required. The horizontal component of the worker's efforts is spent on overcoming the resistance to cutting off the roots of weeds and a small layer of soil from the surface. Considering the impact nature of the impact of the blade on the roots and on the soil, the static horizontal effect is supplemented by a dynamic effect, depending on the send speed. This explains the insignificant consumption of physical energy working when cleaning these areas from weeds.

Thus, the proposed combined hand tool for removing weed vegetation in comparison with the prototype has a wider range of effective use when cleaning garden plots.

Claims (3)

1. A combined hand tool for removing weed vegetation, containing a rake working body with a series of teeth having a curved shape and rigidly connected to the rake base, a cutting blade located in close proximity and parallel to the rake base so that when using the tool as a cutting tool for cutting weed vegetation, the free ends of the teeth of the rake working body are raised above the soil surface, and when using tools as a rake, the free ends of the teeth are mutually they work with the soil surface, and the handle, characterized in that when using the tool as a cutting tool for cutting weeds, the tool rests on the ground with a curved part of the two extreme teeth of the rake working body, and the cutting blade is installed between the supporting extreme teeth of the rake working body so that for the average angle of inclination of the handle of the implement during operation, the front surface of the blade passes through the points of contact of the support curved parts of the extreme teeth with the soil surface, while the main rear angle, would be formed soil surface and the rear surface of the main blade during operation has a value of 7 - 25 °, wherein the cutting blade on the front surface is connected to the base by means of agitator elements adjust their relative position in the longitudinal axial direction of the tool. 2. The combined hand tool according to claim 1, characterized in that the protrusion of the curved supporting part of the two extreme teeth of the rake working body relative to the front surface of the cutting blade has a value of b≈0.15 · R, where R is the radius of curvature of the supporting part of the extreme teeth. 3. The combined hand tool according to claim 1, characterized in that the handle of the tool is rigidly connected to the cutting blade by means of a transition tube.

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