AGRICULTURAL TOOL-HOLDER

Abstract

Agricultural tool-holder having a central chassis with a coupling system for coupling with a tractor and at least one lateral chassis that can slide closer to or away from the central chassis, which has a longitudinal axis and includes an adjacent parallel pair of tubular beams orthogonal to the longitudinal axis and suitable for slidingly receiving two rods provided in the lateral chassis, moved by a main actuator mounted in the central chassis.

Claims

1. Agricultural tool-holder comprising: a central chassis that supports a three-point coupling system for coupling with an agricultural tractor and houses all hydraulic and electrical parts used to actuate articulated components of the tool-holder and of the tools that may be installed from time to time on the tool-holder, if necessary; at least one lateral chassis that can slide closer to or away from said central chassis, wherein said central chassis has an axis of symmetry and comprises an adjacent, parallel pair of tubular beams disposed along an orthogonal direction to the axis of symmetry of the central chassis; said lateral chassis comprises an adjacent, parallel pair of rods suitable for being exactly inserted and sliding inside said tubular beams, which practically support the lateral frame telescopically; at least one actuator suitable for providing the moving thrust of said at least one lateral chassis and is mounted in the central chassis; wherein said pair of rods is rigidly connected by means of two spacing bars that are interposed and screwed to the rods, one of said two spacing bars being in correspondence of one end of said rods, and another of said two spacing bars being in correspondence of the center of said rods, in such a way that said rods can be inserted for a section equal to approximately half of their length inside said tubular beams of the central chassis.

2. The agricultural tool-holder of claim 1, wherein said pair of spacing bars acts as support for a bridge element suitable for supporting a tool-holding plate and a depth wheel.

3. The agricultural tool-holder of claim 2, wherein said bridge element comprises a pair of shaped flanges provided with holes for the insertion of said spacing bars.

4. The agricultural tool-holder of claim 3, wherein collars with vertical axis are interposed and welded between the flanges and the leg that supports said wheel is inserted and blocked inside said collars, with possibility of vertical adjustment.

5. The agricultural tool-holder of claim 3, wherein said bridge element supports said plate-holding plate, which comprises a flange provided with a pair of brackets in projecting position, said brackets having a sickle-like shape and being provided at the proximal ends with holes for the insertion of said spacing bar.

6. The agricultural tool-holder of claim 5, wherein said sickle-shaped brackets are provided at the distal end with holes wherein a pin is inserted and blocked, it being inserted in a sleeve (34), which is an integral part of an actuator, for automatically adjusting the inclination of the plate.

7. The agricultural tool-holder of claim 4, wherein said actuator comprises a hydraulic jack comprising a stem and one of said shaped flanges has a perforated shank where the stem of said hydraulic jack is coupled.

8. The agricultural tool-holder according to claim 1, wherein said central chassis supports a pair of identical symmetrical lateral chassis on opposite sides, each one of said lateral chassis being able to slide closer to or away from said central chassis, translating along an orthogonal direction relative to the axis of symmetry of the central chassis.

Description

[0026] For the sake of clarity, the description of the agricultural tool-holder according to the invention continues with reference to the appended drawings, which have a merely illustrative, not limiting value, wherein:

[0027] FIG. 1 is an axonometric view of tool-holder according to the invention;

[0028] FIG. 2 is a top view of the tool-holder of FIG. 1;

[0029] FIG. 3 is an exploded axonometric view of the tool-holder according to the invention;

[0030] FIG. 4 is an axonometric view of the tool-holder according to the invention, with only one tool-holding plate;

[0031] FIG. 5 is an axonometric view of the tool-holder according to the invention, with an opposite pair of inter-row units; and

[0032] FIG. 6 is an axonometric view of the tool-holder according to the invention, without inter-row units and with a pair of filler disks.

[0033] With reference to FIGS. 1, 2 and 3, the agricultural tool-holder (100) of the invention comprises a central chassis (TC) that supports a coupling system (P) for coupling with an agricultural tractor. The coupling system (P) can advantageously be a three-point coupling system of the prior art. The coupling system (P) and the central chassis (TC) house all the hydraulic and electrical parts that are necessary for moving the articulated parts of the tool-holder (100) and of the tools installed in the tool-holder (100) that need to be moved.

[0034] The central chassis (TC) supports a pair of lateral chassis (TL) that project from opposite sides. Each lateral chassis (TL) can slide closer to or away from the central chassis (TC), translating along a transverse axis (X) orthogonal to a longitudinal axis (Y) that corresponds to the forward traveling direction of the tractor that transports the tool-holder (100). The longitudinal axis (Y) coincides with an axis of symmetry of the central chassis (TC).

[0035] The central chassis (TC) comprises a pair of tubular beams (1) disposed in parallel position along an orthogonal direction to the longitudinal axis (Y) of the central chassis (TC). Each tubular beam (1) has a square section.

[0036] Each lateral chassis (TL) comprises a pair of rods (10) disposed in parallel position. Each rod (10) has a square section. The rods (10) are suitable for being inserted and sliding telescopically inside the tubular beams (1). The tubular beams (1) of the central chassis telescopically support the rods (10) of the lateral chassis (TL).

[0037] The two rods (10) of a pair of rods are rigidly connected by means of two spacing bars (11, 12) that are interposed and screwed to the rods (10). A first spacing bar (11) is disposed in the proximity of one end of the rods (10). A second spacing bar (12) is disposed in correspondence of the center of the rods (10), in such a way that the rods (10) can be inserted in the tubular beams (1) of the central chassis (TC) for a section (10a) equal to approximately half of their length.

[0038] Said pair of spacing bars (11, 12) acts as support for a bridge element (20) with a peculiar geometrical configuration, suitable for supporting a tool-holding plate (30) and a depth wheel (40). In agricultural machines, the depth wheel (40) is used to adjust the soil working depth of the tool.

[0039] The bridge element (20) comprises a pair of flanges (21, 22) with collars (23 and 23b) with vertical axis interposed and welded to the flanges (21 and 22), said collars being suitable for slidingly receiving and blocking a leg (41) that supports the depth wheel (40), with possibility of vertical adjustment.

[0040] The depth wheel (40) is blocked by means of a plate (41b) that is coupled with bolts on the lower collar (23b), with the same shape.

[0041] The vertical adjustment of the depth wheel is obtained by means of the telescopic sliding of a tubular element (41c) that supports the wheel inside the leg (41).

[0042] The flanges (21, 22) are provided with holes (21a, 22a, 21b 22b) for the insertion of the spacing bars (11, 12) and the bridge element (20) is mounted astride said spacing bars (11, 12).

[0043] Moreover, the bridge element (20) acts as support for the tool-holding plate (30). The tool-holding plate (30) comprises a flange (31) provided with a pair of brackets (32) in projecting position, said brackets (32) having a sickle-like shape and being provided at the proximal ends with proximal holes (32a) for the insertion of said spacing bar (11) that acts as supporting and pivoting pin for said tool-holding plate (30).

[0044] The pair of sickle-shaped brackets (32) is provided at the distal ends with respect to the flange with distal holes (32b) wherein a pin (33) is inserted and blocked inside a sleeve (34), it being an integral part of an auxiliary actuator (35) in order to automatically adjust the inclination of the tool-holding plate (30). Advantageously, the auxiliary actuator (35) consists in a hydraulic jack.

[0045] The auxiliary jack (35) is connected to the bridge element (20) by means of a locking pin (33b) inserted in a sleeve (34b) of the actuator and in holes (22c, 21c) of the flanges (21, 22) of the bridge element. The inclination of the tool-holding plate (30) is adjusted by varying the length of the auxiliary actuator (35).

[0046] A tool-holder configuration without adjustment of the inclination of the tool-holding plate can be obtained by omitting the auxiliary actuator (35) and the pins (33, 33b), rotating the tool-holding plate (30) by 180° around the transverse axis (X) of the central chassis and blocking the tool-holding plate (30) by means of the bar (11), without having to add any functional parts and without increasing the width of the tool-holder.

[0047] A flange (21) of said pair of flanges of the bridge element is provided with a perforated shank (21b) for coupling the flange with a main actuator (50) installed on the central chassis (TC) and suitable for providing a thrust for moving the lateral chassis (TL) with respect to the central chassis (TC). Particularly, said main actuator (50) advantageously consists in a hydraulic jack comprising a stem (50a) suitable for being coupled with the perforated shank (21b) of the flange (21) of the bridge element. Obviously, two main actuators (50) are mounted on the central chassis (TC) for providing the thrust for moving the two lateral chassis (TL) with respect to the central chassis (TC), respectively.

[0048] A peculiarity of the agricultural tool-holder (100) according to the invention consists in the fact that all the parts used for each one of said lateral chassis (TL) are removably assembled in such a way that, in case of a broken or damaged part, the defective part can be disassembled and repaired, or replaced with a new part, without having to change the entire lateral chassis (TL).

[0049] With reference to FIG. 5, the agricultural tool-holder (100) preferably supports tools consisting in inter-row units (G); however, any other type of tools, and not necessarily an inter-row unit, can be fixed on the tool-holding plate (30) by means of fixing bolts.

[0050] FIG. 6 shows the tool-holder (100) provided with a pair of filler disks for working the sub-row, operating in the proximity of the plants, without reaching the space between two plants, and therefore without the need for an inter-row unit.

[0051] As shown in FIG. 4, the agricultural tool-holder (100) can be used in combination with only one of said lateral chassis (TL) to configure a single tool-holder.

[0052] Both in the case of a single and a double tool-holder, the transverse axis (X) of the central chassis identifies an axis of symmetry for the tool-holder.

[0053] As shown in FIGS. 1 and 2, if the tool-holder (100) is used with a pair of lateral chassis (TL), the central chassis (TC) has two axes of symmetry that coincide with the longitudinal axis (Y) and the transverse axis (X). Such a double symmetry of the agricultural tool-holder (100) has several technical and functional advantages.

[0054] One of the main advantages consists in the possibility of coupling the tool-holder (100) with the tractor in the front and in the rear, by means of a simple right/left inversion of the inter-row units (G) or of the working parts, without any additional accessories or parts.

[0055] In case of a single tool-holder (FIG. 4), it will be simply necessary to invert the installation side (with respect to the longitudinal axis (Y)) of all the parts of the lateral chassis (TL) in order to convert the rear tool-holder into a front tool-holder.

[0056] The rationalization of the parts based on the perfect similarity of all the parts disposed in opposite positions with respect to the axes of symmetry (Y and X) allows for minimizing the production and sales costs, and also for simplifying the management of the warehouse and of the spare parts.

[0057] The agricultural tool-holder (100) according to the invention has the following additional peculiarities:

[0058] because of its removably assembled configuration, the machine can be maintained easily and effectively, identifying the breakdown and replacing the defective or worn-out part rapidly;

[0059] because of the modularity and the easy integration of the accessories, the machines are similar even in case of different functional configurations; optional systems can be installed easily, without increasing the volumes with respect to the basic configuration of the machine;

[0060] because of the fact that the wheels (40) are housed in the sliding lateral chassis (TL) for adjusting the working depth, said wheels (40) follow the inter-row unit (G), always remaining in an optimal position with respect to the inter-row unit and guaranteeing the stability of the machine also in the completely extended configuration;

[0061] because of the geometry of the tool-holding plate (30), the inter-row unit (G) can be combined or replaced with a set of front and/or rear accessories that are suitable for completing and/or improving the under-foliage work.

[0062] The agricultural tool-holder (100) of the invention is characterized by a compact geometry and an optimized weight, with the following additional advantages:

[0063] a higher stability of the tractor/tool assembly, with higher safety during the work;

[0064] the possibility of operating in terrains with a high inclination (which are typical of vineyards), and consequently the possibility of mechanizing disadvantaged agricultural regions;

[0065] the possible installation on the front linkage of the tractor, without impairing its stability and without damaging the parts of the front axle (such a problem being typically experienced with the frontal use of machines that are currently available on the market with higher weight than the maximum weight recommended by the tractor manufacturer and/or with considerable jumps for the couplings);

[0066] the possible use in tractors with lower power and smaller dimensions, with positive consequences in terms of economic sustainability (lower purchasing and maintenance costs, lower consumption, etc.) and agronomic sustainability (less trampling);

[0067] an excellent maneuverability in headland and in reduced spaces (less downtime during works, higher exploitation of the agricultural soil with less turning areas, higher safety during critical maneuvers);

[0068] a better visibility of the working tools because they are more proximal to the tractor and are not covered by the structural parts of the machine (with less stress for the operator and higher productivity).