FR2797897A1 - Multifunctional tools for construction of embankments comprises bucket, leveling blade and vibrating skates which may be attached to the front of a machine and controlled manually or electronically - Google Patents

Abstract

A bucket (13) receives material from a chute mounted on a lorry (25) and is connected to it by a hook (15,16) held in place by hydraulics (19,24) and rollers (14) which bear on the lorry wheels (132). The bucket is connected to a leveling blade (10) which is adjusted in height (26A,26B,26C) by a hydraulic cylinder (80) and incorporates vibrating skates with pressure control (44)

Description

Device ouail. The present invention relates to a multifunctional tool device mounted <B> to <B> at <B> to </ B> the machine-front for the construction of road embankments and other <B> DESCRIPTION </ B> The front of machines for the construction of road embankments and others, including a blade for pushing materials, leveling them, vibrating pads for compacting them, buckets for carrying them.

The technical sector of the invention is in the field of public works and the construction of materials for this work.

One of the main applications of the invention is the realization of road embankments, airports, earth embankments, railways, foundations in stabilized soil. <B>. </ B>

For that in the construction of earth plains, terra of sports, and all other works of roadway, public works, one proceeds generally <B> to </ B> the spreading of materials in successive layers and to spread them one uses a machine called bulldozer or bulldozer which is a <B> to </ B> caterpillar or a loader <B> to </ B> rubberized wheels with grader blade arranged <B> to </ B> the front of the arm, where a bucket allows <B> to </ B> set and adjust layer by layer the materials to have a perfect plamimetry. To proceed <B> to </ B> Finishing operation, a grader is used.

The grader by its design is long and braque me it happens frequently that this machine can not be used <B> to </ B> because of its bulk and its weight <B>. </ B>

However it is necessary to flatten the materials accurately, this spread layer of materials is <B> to the soft state and it is subjected to the <b> compression action of tamping </ b> and compaction, by means designed <B> to </ B> this effect, called vibrating plate or vibratory roller. the spread and compressed layers will only be considered complete when the density of the layer is reached or will exceed the prescribed and determined values.

The conventional method described above involves the use of various machines and the complete execution requires a significant amount of time.

The problem is to make embankments following the operations described above and according to the design of the invention which is the multifunction tool with a single machine simultaneously, executing as necessary work.

The solution to the problem is an equipment called grader blade <B> to </ B> vibrating pads, which ensures these operations simultaneously to achieve the earthworks and the construction of roadways, car parks <B>, </ B> non-binding example spreading, kneading, leveling, vibrating and compacting, smoothing the transported materials that were left in piles.

This multifunctional tool according to the invention comprises a box-like frame containing the hydraulic distributor blocks, the chassis <B> to </ B> its bitter part supports a-no-vible hooks and solidarity of the celw'- These hooks are designed to adapt to many machines.

The chassis <B> to </ B> its upper front supports a rotation means mounted on pivot, maintained by a central pivot, cesi supporting the hydraulic means mounted on pivot <B> to </ B> ball joints integral with the blade . the chassis <B> to </ B> its base part supports a second rotation means centered according to the means of superior rotation of the frame, maintaining the hydraulic means for the inclination of the wool. This mounted on pivots <B> to </ B> ball joints to rotate <B> to </ B> of oits and <B> to </ B> left with millimeter sensor control of the tilt of the blade. A second pair of hydraulic means mounted on pivots <B> to </ B> ball joints on each side of the frame secured to the bitter and its front integral with the blade.

all these combinations for orienting and tilting the blade simultaneously by its inventive design on the two rotational means of the center of two pairs of hydraulic means mounted on pivots <B> to </ B> ball joints, these two hydraulic means mounted on pivots <B> to </ B> ball joint to orient the blade <B> to </ B> right and <B> to </ B> left, and to switch <B> to </ B> right and <B> to </ B> left with the hydraulic means mounted on pivots <B> to </ B> ball joints.

The blade <B> at </ B> its lower part supports pads mounted on pivots and actuated by a hydropneumatic combination with controlled development, with a measuring sensor allowing the control of the closure and the opening of the pads, a-ci that the control of pressure, both by the development of hydraulic means to millimeter measurement. It is here that the adjustment of the pressures by an adjustment of the mixed oil and air capacity in the chamber of the compression means making it possible to control the compaction with the vibrating pads on the materials spread by the blade. the set of hydropneumatic combinations being mounted on pivots made integral with the pads and the blade <B> to </ B> its lower part and <B> to </ B> its upper part. A simple adjustment of the pressure makes it possible to modify the ground clearance to restore a different attitude and to compensate for an additional load according to the thicknesses of materials to be compacted. The pads are designed with a special shape according to the orientation of the blade. skates <B> to </ B> their angular parts bitter have a rounded shape, to allow to compact in bitter step, with the wool oriented <B> to </ B> right or <B> to </ B> left from <B> 0 'to </ B> 27'.Ia leveling blade <B> at </ B> its ends supports flaps hung <B> at </ B> a pair of rods and keyed. They are orientable, serving <B> to </ B> retain materials during spreading.

The blade <B> at </ B> its front part supports a bucket actuated by hydraulic means for the closing and the opening of this same bucket of rounded shape in the shape of bucket, allowing to support <B> to </ B > the front a frame hung and fixed <B>, </ B> This chassis is equipped with a mechanism and roller conveyors for truck. the assembly is mounted on pivots and adjustable.

The combinations of the invention allow different variations of the use of the multi-function tool to execute the work; these different variants are not limiting.

All the combinations of the present invention are maintained by the independent hydraulic means. Each other is controlled by the operator who actuates electric manipulators manually or automatically. the automatic being linked to an electronic control transmitted to the board of bor on the horizontal plant for the inclination of the blade, and vertically for a control of the pressures exerted on the pads.

According to the invention, the advantageous form of the embodiment and its combinations allow to level, tamp, and mix simultaneously the materials and to transport them, as well as to perform finishing work.

According to the combinations of the invention, the hydropneumatic means allow the flotation of the pads, while keeping a floating pressure with its means of a double control of the pressure of the pad on the materials.

The schematic drawings shown in the figures of <B> 1 to 7 </ B> are <B> to </ B> as non-limiting examples.

In the preferred embodiment of the present invention as shown, it can be used on several types of machines; loaders, bulldozers, backhoes, backhoe loaders, small sizes or larger sizes. the invention makes it possible to adapt the first frame <B> to </ B> the machine.

The tool according to the invention by its technical particularity, articulation combinations and performance only needs an operator for its operation during the various operations that are performed.

<B> A </ B> this <b> j </ B> our, we need no less than three machines, one of which is used to break up and load the cuttings, a second to level , and the third to compact the materials.

The tool according to the invention gathers several means different from each other and independent, advancing <B>, </ B> it pushes the truck, it receives the materials and leveling them, then compact them, so a machine at place of three. Other advantages of invention could be mentioned, but those cited above demonstrate <B> already enough </ B> the interest of novelty <B>. </ B> The world of embodiment of the invention, the equipment supported by the machine are shown <B> to </ B> as a non-limiting example on schematic drawings <B> to </ B> as an example, annexes. Further implementations are possible from the claims which demonstrate the range and extent of cells that are germane to this invention. FIG. 1 is a side view of the present invention. multipurpose tool machine washing set with wool and skids, bucket, swivel flaps and truck roller mechanism.

Figure 2 is a side view of the multifunction tool consisting of the frame and a blade supporting pads with its pressure means.

Figure <B> 3 </ B> is a rear view of the multi-function tool showing the combinations of orientation and tilt.

FIG. 4 is a view from above of the multifunctional tool demonstrating the orientation of the blade of the skates and the expanders of removable rounded skates, FIG. 5 is a view of B / B. > Partial side of a flap of the multifunction tool. snapping into the blade.

Figure <B> 6 </ B> is a top view of the multi-function tool with an adjustable flap hooked to the blade and keyed.

Figure <B> 7 </ B> is a profile view of the tool equipped with a hitch frame for hydraulic excavator, is equipped with a rounded bucket.

Figure <B> 8 </ B> is a partial view of the top of the multifunctional tool including the wool and skids with the widening pieces, the flaps <B>, </ B> the bucket supporting the rollers mechanism.

Figure <B> 9 </ B> is a partial multifunctional tool side view supporting the mechanism of push rollers and pressure means. Figure <B> 1 </ B> represents the front profile assembly of a machine called loader supporting the said invention, the multifunctional tool is hooked to the arm of the machine. The invention is made up of a plurality of independent and solid frames, actuated by independent hydraulic means, mounted on pivot pins, the assembly being guided by the operator who is in the cabin. equipped with manipulators and a remote control panel the opening or closing of the hydraulic distribution pressurized by the hydraulic pump of the machine called loader. <B> A </ B> example title <B> ( 1) </ B> with its arm (2 <B>) </ B> operated by hydraulic means <B> (3) </ B> and (4 <B>) </ B> which is hooked by two overturned hooks <B> (5) </ B> to the first chassis <B> (6), <B> (5) <B> (7) <B> (7) </ B> pivoted <B> (8) </ B> centered and secured to the chassis <B> (6) </ B> the rotation means <B> (7) </ B> is vertically centered above a second rotation means <B > (9). </ B> This being secured to the chassis (6) and the blade <B> (10) </ B> of the vibrating pads <B> (11) < / B> mounted on pivots <B> (1 </ B> 2). This same blade <B> (10) </ B> supports <B> to </ B> its front part a bucket <B> (l 3) </ B> without teeth; rounded shape; this same bucket <B> (13 </ B>) which <B> at </ B> its front end supports rollers feeder (14 <B>) </ B> is hooked <B> (15) </ B > and set <B> to </ B> one piece <B> (16 </ B> rounded bucket <B> (13) </ B> These rollers <B> - </ B> passers <B> (< 1 </ B> 4) mounted on a pivot <B> (l 7) </ B> central fixed to a mechanism <B> (18) to </ B> its lower part, supports hydraulic means <B> (19) </ B> mounted on pivots (20 <B>) </ B> and (21 <B>) </ B> to rotate (22) and adjust mechanism <B> (18) </ B > which is mounted on pivots (23), the hydraulic means <B> (19) </ B> mounted on pivots (20 <B>) </ B> and (21) is provided with a compression means (24) to absorb the impacts of the <B> (25) </ B> truck carrying materials <B> (26) </ B> in the skip <B> (27) </ B> lifted, allows to <B> (26) </ B> <B> (28) </ B> materials into the bucket <B> (13) </ B> which has a sufficient opening to allow them to pass. B> (13) </ B> supports all push rollers (14 <B>) </ B> and adjustment mechanism <B> (1 8) </ B> mounted on pivots <B> (23). </ B> The assembly being hooked with the hook <B> (15) </ B> to the buckets <B> (13) </ B> and held by a rounded <B> (16) </ B> fastening means secured to the bucket <B> (13 </ B>) <B> (26) </ B> spilled materials <B> (28) ) </ B> in the bucket <B> (13) </ B> are held by the pivotable <B> (29) </ B> flaps mounted on <B> (3 0 </ B>) flaps and actuated by hydraulic means <B> (3 1). </ B> The whole shutter <B> (29) </ B> being secured to the blade <B> (10) </ B> is hooked with its hook <B> (32) to </ B> the connecting rod <B> (33) </ B> the blade <B> (10) </ B> supporting all three functions. The bucket <B> (13) </ B> mounted on pivots (34), the shutter <B> (29) </ B> hooked <B> to </ B> the connecting rod <B> (33) </ B> and keyed <B> to </ B> its lower part by a keying means (35) .This keying being <B> to </ B> 1 "inside the blade (W) detailed and explained in the figures <B> 5 </ B> and <B> 6> </ B> the <B> (1 </ B> 4 <B>) </ B> rollers attached to the <B> (18) </ B > hooked <B> (1 <I> 5) </ I> to </ B> the rounded part of the bucket <B> (13), </ B> and <B> to </ B> its lower part a fastening means <B> (36) </ B> secured to the wool, the blade supports the bucket <B> (13) </ B> and the roller (14) The assembly is maintained by the hydraulic means <B > (80) </ B> explained in Figure <B> 3, </ B> The blade supports the hydraulic means <B> (37) </ B> integral with the pressure means (44) called hydropneumatic means exerting a pressure on the shoe <B> (11) </ B> through the frame (41) and mounted on pivots (12) in order to keep the shoe under pressure on the materials <B> (26) </ B> spread by the blade (10 ) and compacted by the pad <B> (1 </ B> 1). The pad is actuated by hydraulic means <B> (37) </ B> mounted on pivots <B> (38 </ B>) and <B> (39). </ B> The pad equipped with its vibrator (40 <B>) </ B> secured to the frame (41) via insulators (42) and (43). The multifunction tool assembly is actuated by distributing hydraulic blocks (46) remotely controlled by the operator <B> to </ B> using manipulators (47) and (48) connected by cable to the switchboard. control (45) for a wool and pad pressure test (l <B> 1) </ B> on materials <B> (26). </ B> The assembly connected by cables (49) or any other means of communication supplied by batteries <B> (50) </ B> and by the hydraulic pump <B> (5 1) </ B> of the machine supplying hydraulic blocks (46) with hydraulic hoses <B > (52) </ B> and back to the tank <B> (53). </ B>

Figure 2 is a profile view of the multifunction tool, The first frame <B> (6) </ B> supports <B> to </ B> inside the hydraulic blocks (46 <B>) </ B> powered by the hydraulic hoses <B> (52) </ B> and <B> (53) </ B> the chassis <B> (6) </ B> innovative form to be adapted <B> to </ B> several machines support interchangeable fastening means (54) and <B> (55) </ B> and secured to the chassis <B> (6) </ B> by fixing means <B> (56) </ B> the form of the fastening means (54) and <B> (55) </ B> allow <B> to </ B> the operator to hook the tool to the arm (2) of the machine in two movements one <B> (57) </ B> hanging in the middle (54 <B>) </ B> and two in the middle <B> (55) </ B> by a second movement <B> (58) </ B> these means to have an interchangeable tool and multifunction. The first chassis <B> (6) at </ B> its rear end supports hydraulic means <B> (59) </ B> mounted on ball joints <B> (60 </ B>) which are attached <B> to the front part by a second pivot <B> to </ B> ball joints <B> (61) </ B> These fastening means <B> to </ B> ball joints <B> (60) </ B> and <B> (61) </ B> are horizontally attached to the pivot at <B> (61) </ B> and vertically centered to the curved center of the blade and a <B> 90 '</ B> according to the means of rotation <B> (9) </ B> and a middle rotation segond <B> (7) </ B> mounted on a pivot <B> (8) </ B > secured to the blade <B> (10) </ B> centered on the means of rotation <B> (9) </ B> and which is held by the means (64) integral with the attachment blade <B> (10) </ B> of the hydraulic means (64) mounted on pivot bearings <B> (65) </ B> and <B> (66) </ B> equipped with a sensor <B > (70) </ B> measurement for controlling the inclination of the blade and secured to the blade <B> (10) </ B> box <B> (67) </ B> described by the pintillés support the means of e rotation <B> (9 </ B>) integral with the boxed part <B> (67) </ B> this segment means of rotation <B> (9) </ B> is made integral by these fixing means <B> (63) </ B> to the chassis <B> (6). </ B> The set; Blade <B> (10) </ B> and skate <B> (11), <B> bucket (13), push rollers (14), shutters <B > (29) </ B> is articulated by hydraulic means <B> (59) </ B> mounted on ball joints <B> (60) </ B> and <B> (61) </ B> which are on each side of the chassis <B> (6) </ B> by their design and fixing to allow to orient on the means <B> (9) </ B> spherical and means <B> (7) </ B> mounted on pivot <B> (8) </ B> centered <B> (68) </ B> according to the means <B> (9) </ B> The tool inultifunctions particularly innovative with these means universal joints, allows the operator through the manipulators (47) and (48) to pivot and simultaneously rotate the blade <B> (10) </ B> to rotate <B> ( 71) </ B> <B> (11) </ B> mounted on pivot <B> (1 </ B> 2) the assembly <B> é </ B> maintained by the chassis (4 < B> 1) </ B> supporting the insulators (42) and (43) secured to the frame (41) and the pad <B> (1) </ B> provided with the vibrator (40) 1 "pivoting assembly < B> (71) </ B> in closing and opening with the hydraulic means <B> (37) </ B> mounted on pivots (38) and (39) the whole hydropneumatic combination allows by design, the hydraulic means <B> (37) </ B > equipped with a measuring sensor <B> (69) </ B> controls the closing and opening <B> (71) </ B> of the pad, and the pressure means (44) has its upper part supports <B> (72) </ B> adjustment valve to increase air pressure or decrease <B> to </ B> as a result of compaction control according to material thickness compacted, spread by Blade <B> (10) </ B> to compact forward and reverse. The pad <B> (11) </ B> is equipped with an innovative and interchangeable rounded up <B> (73) </ B> part integral with the pad <B> (l 1) </ B> by these fixing means (74 <B>) </ B> and <B> (75) </ B> the blade <B> (10) to </ B> its lower part is provided with a curved hatch <B > (76) </ B> mounted on pivots <B> (77) </ B> mu-ni of pressure means <B> (78) </ B> for closing thereof <B > (76) </ B> according to the blade profile <B> (10). </ B>

Figure <B> 3 </ B> is a view from the back of the multi-function tool on either side of center (B) (68) </ B> being symmetrically designed to demonstrate orientation and blade inclination <B> (10) </ B> integral with the assembly: chassis <B> (6), <B> blade (10) </ B> and skates <B> (1 IA) </ B> and <B> (1 </ B> IB), the chassis <B> (6) </ B> equipped with means & fastener (54 <B>) </ B > and <B> (55) </ B> interchangeable and secured by the fixing means <B> (56) </ B> The chassis <B> (6) </ B> supports hydraulic means <B> (59) </ B> loops on pivots <B> (60) (61) to </ B> ball joint on both sides of the chassis <B> (6). </ B> These hydraulic means are <B > to </ B> their forward extremity, integral with the blade <B> (10) </ B> by pivots <B> to </ B> ball joints. These hydraulic means <B> (59) </ B> mounted on pivots <B> to </ B> ball joints <B> (60) </ B> and <B> (61) </ B> sound perfectly centered < B> (68) </ B> between the ftaut and the bottom of the curve of the blade <B> (10) </ B> and the means of rotation <B> (9 </ B>), This means of rotation <B> (9) </ B> being secured to the blade <B> (10) </ B> by these fixing means <B> (62) </ B> and the chassis <B> (6) < / B> by these fastening means <B> (63) </ B> this means of rotation <B> (9) </ B> perfhitenient centered <B> (68) </ B> on the average Saigon rotation <B> (7) </ B> mounted on pivot <B> (8) </ B> secured to blade <B> (10) </ B> by rotation means (64) mounted on pivot <B > to </ B> ball joints <B> (65) </ B> and <B> (66) </ B> secured to the boxed blade <B> (67) </ B> allows <B> to </ B> Blade Set <B> (10) </ B> and Skates <B> (11 A) </ B> and <B> (11 </ B> B <B>) </ B > to orient and bow <B> (9A) </ B> simultaneously or separately. All means (64) <B> (37) (80) (59) </ B> actuated by the hydraulic blocks (46) supplied by the piping <B> (52) </ B> and <B> (53) </ B> hydraulic. Blade <B> (10) </ B> supports skates <B> (11 A) </ B> and <B> (11 </ B> B <B>) mounted on pivots (12) ) supported by the frames (41 <B>) </ B> and (41A) secured by the insulators (42) and (43). The assembly is actuated by means <B> (37) </ B> hydraulic mounted on the pivots <B> (39) </ B> and the pressure means (44) mounted on pivot <B> (38) </ B> for closing or opening <B> (71) </ B> skates. The hydraulic means <B> (37) </ B> equipped with its sensor <B> (69) </ B> allows to control development of the hydraulic means <B> (37) </ B> indicated on the table of bor (45) vertically by indicator lights <B>. </ B> The pressure means (44) integral with the hydraulic means <B> (37), </ B> the compression means (44) is provided with a setting <B> (72) </ B> valve allowing <B> d </ B> 'to increase the decrease of the air and oil mixture in the compression means (44). All hydropneumatic combinations perinect a compaction control with skids <B> (11 A </ B> <B>) </ B> and <B> (1 </ B> IB <B>) </ B > in order to exert pressure on the <B> (26) </ B> materials spread by the <B> (10) </ B> blade which are vibrated by the vibrators (40) integral with the <B> pads ( 11A) and (11B) this control is carried out according to the thicknesses of the materials <B> (26) </ B> to be compacted. Blade <B> (]. 0) </ B> box <B> (67) </ B> supporting hydraulic means <B> (80) </ B> is mounted on the same pivot <B> (1 </ B> 2 <B>) </ B> that the pivot of skates <B> (1 </ B> 2 <B>) </ B> is <B> at </ B> its high end of seconds Pivots <B> (81) </ B> allows the bucket (13) to be pivoted on the pivots (34 <B>). </ B> The blade <B> (10) </ B> supports fixing <B> (33) </ B> connecting rods with their holes <B> (79) </ B> to receive the hooks <B> (32 </ B>), shutters <B> (29) </ B> Explained and demonstrated in Figures <B> 5 </ B> and <B> 6 </ B> the blade <B> (10) to </ B> its lower part supports <B> traps ( 76) </ B> shaped according to the profile of the blade mounted on pivots <B> (77) </ B> equipped with compression means <B> (78) </ B> for the closing of the hatches <B> (76) </ B> Explained and Demonstrated in Figures <B> 5 </ B> and <B> 6. </ B> The Blade <B> (10) at </ B> Its Low Part on the Part box of holes <B> (82) </ B> for keying mechanisms that are explained and disassembled res in the figures <B> 5 </ B> and6.

skates <B> (1 IA) </ B> and <B> (1 </ B> IB <B>) </ B> are equipped with <B> (73A) <B> and <B> (73B) </ B> interchangeable with <B> (11 A) </ B> and <B> (1 </ B> IB <B>) </ B> pads by these fasteners (74 and <B> (75). </ B> Figure 4 is a top view of the inultifunction tool <B>. </ B> In order to facilitate the understanding of the figure and not to overload the drawings, exploded * were necessary * which are described by the dotted lines <B> (83) </ B> (84 <B>) (85) (86) </ B> demonstrating the combinations of "entation and inclination of the blade < B> (l 0 </ B> supporting skates <B> (1 </ B> lA <B>) </ B> and <B> (l </ B> IB <B>) </ B> for compacier 'your materials <B> (26 </ B> in forward and reverse <B> (87). <B> (10) </ B> is Angled <B> 88 </ B> from <B> 0 </ B> to <B> 27 '. </ B> the whole is attached to the chassis <B> (6) </ B> with its hooks (54 and <B> (55) </ B> interchangeable and secured by the fixing means <B> (56), </ B> the entire tool being connected used to <B> to </ B> a machine of small size or large size making it interchangeable and multifunctional, by these combinations. The chassis <B> (6), </ B> by its design is of innovative form, it contains the hydraulic blocks (46 <B>) </ B> for the distribution of hydraulic fluid pressurized by the pump < B> (5 1) </ B> of the machine <B> (1) </ B> With hoses * <B> (52) </ B> and (<B> 53) </ B> hydraulic for the operation of the pair of hydraulic means <B> (59) </ B> of the chassis <B> (6) </ B> and the pair of hydraulic means (64) is integral with the chassis <B> (6) </ B> has its upper part, The chassis <B> (6) </ B> supports a rotation means <B> (7) </ B> mounted on pivots <B> (8), </ B> centered <B> (68) </ B> at the vertical of the middle segment <B> (9) </ B> rotation integral with the chassis <B> (6) to </ B> its base part maintained by means fixing means <B> (63). </ B> the means of rotation <B> (9) </ B> is made integral with the boxed blade (67). by means of a fastening means <B> (62), </ B> a pair of hydraulic means <B> (37) </ B> equipped with sensors <B> (69) </ B> for the control of the closing and opening of skates <B> (71) </ B> with pressure means (44), skids <B> (11A) </ B> and (11B) provided with vibrator (40). B> (6) </ B> supports a pair of hydraulic means (59 <B>) </ B> on either side of it <B> (6) </ B> mounted on pivots <B > to </ B> ball joints <B> (60) </ B> and <B> to </ B> Pune front ends, are mounted on pivots <B> to </ B> ball joints <B> (61) < / B> being secured to the boxed blade <B> (67) </ B> described by the dotted lines. The pivots <B> to </ B> ball joints <B> (61) </ B> are on the same alignment as the hydraulic means <B> (66), </ B> being secured to the rotating means <B> (7) </ B> and <B> (9) </ B> are centered <B> (68) </ B> to orient <B> (88) </ B> and inclined <B > (9 1) <B> (10) </ B> and the <B> (l 1 A) </ B> and <B> (l 1 </ B> B) pads in angledozer according to the development points <B> (93) </ B> and closing (94) of the pair of hydraulic means, <B> (59) </ B> on both sides of the chassis <B> (6) <B> (68) </ B> and <B> (9) rotation means. </ B> Lets <B> (91) </ B> and orient <B> (88) </ B> with pivots <B> (8) <B> 0 'to 27' </ B> the blade <B> (10) </ B> and the skates <B> (11 A) </ B> and <B> (11 </ B> B <B>) </ B> in Angledozer according to the development points <B> (89) </ B> and closing <B> (90) </ B> of the pair of hydraulic means <B> (59) </ B> on either side of the chassis <B> 6) </ B> together by the rotation means <B> (9) </ B> provided with these fixing means <B> 62) </ B> on the side l soul <B> (10) </ B> and its fasteners <B> (63) </ B> chassis side <B> (6) </ B> secured central point <B> (68) </ B > of rotation <B> (7) </ B> with the particularity that the means of rotation <B> (9) </ B> is fixed <B> to </ B> the vertical rotation and <B> to 90 '</ B> relative to <B> to </ B> spreading materials <B> (26 </ B>), This principle is unknown <B> to </ B> today according to the mode < B> of </ B> operation described and shown in the figures of <B> 1 to 9 </ B> not limiting the blade <B> (10) </ B> is oriented in English <B> to </ B> > 27'anviron. Figure 4 shows the perfect alignment of the tip of the blade <B> (10) </ B> on the piece <B> (73 A) </ B> interchangeable integral with the pattern <B> (l 1 A) < / B> allows <B> of </ B> by m innovative design to reverse the vibration of the vibrators (40) integral patuis. <B> (l 1 A) </ B> and <B> (l 1 </ B> B <B> <I>) </ I> </ B> <I> and </ I> to compact in reverse <B> (87B) </ B> by design, <B> to </ B> the opposite. The <B> pad (1 </ B> IB <B>) </ B> supports an interlocking <B> (73 </ B> B) piece integral with the pad <B> (1 </ B> IB <B >) </ B> by these fasteners (74 <B>) </ B> and <B> (75) </ B> the piece <B> (73 </ B> B) by its rounded form towards the top and ends <B> to <B> to <B> to </ B> zero <B> (92) </ B> to compress during the tool's backspace. Blade <B> (10) </ B> smiling in Angledozer <B> at 27 '</ B> demonstrates the perfect elongation of the blade <B> (10) </ B> on the piece <B> (73B ) Interchangeable with the pad (11B allowing by its innovative design to reverse the vibration of the vibrator (40) integral skates <B> (11A) </ B> and (11B <B>) </ B > and compact in reverse <B> (87 A) </ B> and <B> (87B) </ B> without a trace during the backing action of the tool, the <B> pads ( 1 A) <B> and <B> (11 </ B> B) mounted on pivots <B> (1 </ B> 2 <B>) </ B> secured to the <B> blade (10 ) </ B> by frames (41 <B>) </ B> (4 <B> A) </ B> supporting it to insulators (42) and (43) the assembly being actuated by the hydraulic means <B> (37) </ B> mounted on pivots <B> (38) </ B> and <B> (39) </ B> the blade <B> (10) </ B> supports the means of pressure (44) provided with adjustment valves <B> (72) </ B> integral with hydraulic means <B> (37) </ B> These means exert a pressure on the chassis (41 <B>) </ B > and (41 A) make it possible to maintain skates <B> (l 1 A) </ B> and <B> (11 </ B> B <B>) </ B> in pressure on the <B> (26) </ B> materials spread by the Blade <B> (10). </ B>

The Rigure <B> 5 </ B> is a side view of the flap <B> (29) </ B> hanging <B> at </ B> the blade <B> (10) </ B> of the 'multifunctional tool', the shutter <B> (29) </ B> hooked <B> to </ B> the blade <B> (10) </ B> by <B> 1 "</ B> intermediate its <B> (32) to </ B> connecting rods <B> (33) </ B> of innovative rounded shape with a hole <B> (72) </ B> for fixing. the rounded <B> (33) </ B> rod is used to hang the <B> (29) </ B> flap and rotate <B> (95) </ B> so that the keying means <B> (35) </ B> with conical <B> hole <B> (96) </ B> allows the tapered sliding pivot <B> (99). </ B> The keying means <B> (35) at its end the point being also tapered <B> (97) </ B> is introduced into the mechanical part <B> (98) </ B> by the trapdoor <B> (76) </ B> mounted on pivots <B> (77) </ B> under the action of pivoting <B> (95). </ B> <B> (35) ) </ B> introduced receives the tapered sliding pivot <B> (99), </ B> and retracted into 1 "conical orifice <B> (96) </ B> renders the integral with the blade <B> (10) </ B> The flap <B> (29) </ B> with its pivot <B> (3 0) </ B> through a pair of connecting rods <B> (100) </ B> on the pivoting side of the flap <B> (29) </ B> and the rod <B> (101) </ B> fixed side hooked <B> to </ B> Blade <B> (10), </ B> demonstrated by the dotted lines <B> (105). </ B> In the form of the invention it is shown the perfect alignment of the center of Forifice <B> (72) </ B> on pivot <B> (30) </ B> to allow <B> pivot <B> (95) </ B> and flap orientation <B > (29) </ B> and the keying of the assembly <B> to </ B> the rod <B> (33) </ B> made integral with the blade <B> (10) </ B> through the keyway assembly <B> (35) (98) (99), <B> (29) </ B> with the connecting rod <B> (101) </ B> by its shape, has a notched portion <B> (1 </ B> 02) for the pivoting of the flap <B> (29) </ B> actuated by a second notched means <B> (103 </ B>) him -even actuated by the hydraulic means <B> (1 </ B> 04) supported by the fixed part described by the dotted lines <B> (1 <I> 0 </ I> 5). < / B> The flap <B> (29) </ B> supporting a pair of wear means <B> (106) </ B> integral with the flap <B> (l 0 </ B> <B>) <B> (107). <B> (29) </ B> to uncouple it from the blade <B> (10) </ B> a declining means <B> (108) </ B> is mpiù of a tab <B> (109) </ B> allowing means <B> (108) of </ B> keyed to pivot <B> (l 10) </ B> on the pivot (12 <B>) </ B> to compress the pressure medium <B> (l 11) </ B> up <B> (l </ B> 12 <B> ) </ B> and unclip the <B> (99) </ B> sliding mechanism <B> (98) </ B> pivot and release the <B> (35) </ B> mechanism in order to unhook the entire blade <B> (10). </ B> The mechanical mechanism is <B> to </ B> as an example and can be replaced by hydraulic means, the sliding pivot <B> ( 99) <B> and keying means <B> (108) </ B> shown in Figure <B> 5 </ B> is non-limiting. <B> 1 </ B> The figure <B> 6 </ B> is a top view of the flap hooked <B> to the <B> blade (10) </ B> via its eighth note t <B> (32) to </ B> the rod <B> (33) </ B> attached to the wool <B> (10) </ B> The flap <B> (29) </ B > being keyed <B> to </ B> the blade <B> (10) </ B> supports a pair of wear means <B> (106) </ B> secured by fastening means <B> (107). </ B> the flap <B> (29) to </ B> its pivoting part demonstrates the "effectiveness of such a design with a pivot from <B> 0 'to 27' (l 13). </ B> The flap <B> (29) </ B> is secured by its pivot <B> (30), <b> - </ b> ci provided with a pair of connecting rods <B> (100) </ B> and <B> (101) </ B> cited in the previous figure these two connecting rods being provided with notched means (102) on the swingable side and second notched means <B> (103) </ B > driven by a hydraulic means (104) supported by the fixed part of the flap <B> (29) </ B> demonstrated by these dotted lines <B> (105) </ B> with its hook <B> (32) </ B> hooked <B> to </ B> the connecting rod <B> (33) </ B> equipped with its fixing hole <B> (72) to </ B> its lower part the keying means < B> (35) </ B> is introduced <B> (95) </ B> in the a mechanical part. <B> (98) </ B> The sliding vertical means <B> (99) </ B> has entered the keying means <B> (35) </ B> making the flap assembly < B> (29) </ B> and its fixed part <B> (105) </ B> described by the dotted lines integral with the blade (10) .par means of fixing <B> (98) (99) </ B> and <B> (35), </ B> the fixed part <B> (105) </ B> of the flap is provided with wear means <B> (l </ B> 14 ) secured to the flap <B> (29) </ B> by these fastening means <B> (1 <I> 15). </ I> </ B> The release of the assembly is effected by the mechanism <B> of </ B> key <B> (108) </ B> by pivoting on the pivots (12) and releasing the key <B> (35) </ B> of this tapered part by a reverse movement and the trapdoor <B> (76) </ B> mounted on pivots <B> (77) </ B> closes <B> (116) </ B> under the constraint of the pressure medium, <B> (78) ) </ B> The entire keying combination by design can be extended <B> to </ B> other mechanical or hydraulic means hooked <B> to the </ B> non-limiting blade.

Figure <B> 7 </ B> is a side view of the multi-function tool with a <B> (17) </ B> frame for attaching the tool to hydraulic excavators. by its design the means of rotation <B> (118) </ B> allows to be secured to the frame <B> (l 17) </ B> and wool <B> (10) </ B> equipped of these blade side fastening means <B> (1 19) </ B> and chassis side (120) so as to tilt the entire tool blade, the bucket, and the right pad <B> to </ B> left and left - <B> to </ B> right. Chassis <B> (117) </ B> supports hydraulic means <B> (1 </ B> 2 <B> 1) </ B> mounted on pivots <B> to </ B> ball joints <B> (1 </ B> 22). <B> to </ B> the opposite of the hydraulic means (121), a second pivot <B> to </ B> ball joints <B> (123). </ B> Chassis <B> (117) </ B> is equipped with a pair of pivots (124) for this frame to attach to small or large hydraulic excavators. Chassis <B> (l 17) </ B> supports <B> (<46>) hydraulic hoses powered by hydraulic hoses <B> (52) </ B> and <B> (53) < / B> of the hydraulic excavator, retaining the same principle of operation of the hydraulic and electrical design described in the figures <B> gui </ B> of <B> 1 to 6. </ B> The blade <B> (10 ) </ B> supports a bucket <B> (125) </ B> equipped with means for earthwork tips <B> (126). </ B> The bucket <B> (125) of </ B> forms rounded <B> (127) </ B> similar to blade profile <B> (10). </ B> The bucket with a second rounded shape (128) allows the design of a double bottom <B> (129) </ B> bucket <B> (125) </ B> mounted on pivots (34) bucket <B> (125) </ B> operated <B>, <by means hydraulics <B> (80) to </ B> its upper part with its pivot <B> (81) </ B> and its lower part (12). The blade <B> (10) </ B> supports the hydraulic means <B> (37) </ B> equipped with its sensor <B> (59). </ B> The pressure means (44) provided with its <B> (72) </ B> valve to increase the air capacity in the oil to relieve the pressure needed for good compaction with the <B> (11) </ B> pad that pivots on the pivot (12 <B>) </ B> actuated in closing and opening <B> (71) </ B> by the hydropneumatic means mounted on the pivots <B> (39) </ B> and <B> (38) ) Acting on the frame (41) and (4 <B> 1 A) </ B> supporting the isolator (42) and (43) integral with the pad <B> (11) </ B> supporting the vibrator (40). The multifunctional tool by its basic design is not limiting in its combinations.

Figure <B> 8 </ B> is a partial top view of the multi-function tool for <B> blade (10), <B> (11 A) </ B> and <B> B> (11 </ B> B) equipped with a pair of pieces <B> (130A) </ B> (130B) interchangeable expansions, secured by their means (74) and <B> (75) </ B > fixing. The set of means (130A) and (130B), integral with the pads <B> (1 IA) </ B> and <B> (1 </ B> IB) can compact variable widths by design. The blade <B> (l 0) </ B> supports <B> at </ B> its front part the bucket <B> (13) </ B> operated by these hydraulic means (80 <B>) </ B> mounted on pivots <B> (l </ B> 2) and <B> (8 1) </ B> according to the figure <B> 3, </ B> pivoting on the pivots (34) for the opening of this bucket <B> (13) </ B> The bucket <B> (13) </ B> <B> at </ B> its front part is designed with a piece <B> (16) < / B> rounded to hang <B> (15). </ B> The mechanism <B> (18) </ B> supports the push rollers (14) secured to the mechanism by the pivots <B> (17) </ B> This pivot-mounted <B> (23) </ B> mechanism supports a pair of hydraulic means <B> (19) </ B> with pressure means (24). The assembly mounted on pivots (20) <B> to </ B> its lower part and <B> to </ B> the opposite on the mechanism <B> (18) </ B> a second pivot (2 <B> 1). </ B> The multi-function tool shown in Figure <B> 1 </ B> is designed to push <B> (25) </ B> trucks with the <B> machine (1). </ B> by putting the rollers <B> (1 </ B> 4) mounted on pivots <B> (13 1) </ B> in contact with the wheels <B> (132). </ B> together is held and secured by the frame <B> (133) </ B> mounted on pivots <B> (17) </ B> allowing a free pivot (134). The <B> (25) </ B> truck dumping the maten * to the (26 <B>) </ B> of the skip <B> (27) </ B> lifted, the slippery materials <B> (28) ) </ B> in the bucket <B> (13) </ B> which is a predetermined opening, according to the thicknesses to be regaled and to compact. The materials <B> (26) </ B> are retained by the shutters <B> (29A) </ B> and (29B) on the sides at the ends of the blade, these orientable flaps of symmetrical shape according to the center of the tool, are hooked <B> to </ B> the pair of rods <B> (33) </ B> at the ends of the wool <B> (10), </ B> and keyed by the mechanisms of keying described and demonstrated in <B> 5 </ B> and <B> 6. <B> <B> (26) </ B> materials leveled by <B> blade (10) </ B> and compacted across the entire width of the tool, from the left pane (29A) to the right pane (29B) the pair of interchangeable pieces (130A) (130B) is <B> to </ B> as an example and can be replaced by other, non-limiting, design parts. <B> 1 </ B> Figure <B> 9 </ B> is a partial side view showing all of the pusher rollers on the bucket <B> (13) </ B> with its hook <B> (l 5) </ B> on the piece <B> (16) </ B> and held by its fixation <B> (36) </ B> secured to the bucket <B> (13), </ B> p machine-driven <B> (1) </ B> explained and demonstrated in the <B> (1) </ B> figure of the multi-function tool. Depending on the work <B> to </ B> achieve and the materials <B> to </ B> set up, it is often necessary to proceed <B> to </ B> the layer spreading, hence the need to invent a mechanism <B> (l 9) </ B> adjustment, these push rollers <B> (l </ b> 4). According to the material layers <B> (26) </ B> A.B.C. predetermined thicknesses with the <B> (135) </ B> height of the <B> blade (10) </ B> the <B> bucket (13) </ B> requires a corresponding aperture <B> to < / B> the quantity of materials <B> (26) to </ B> receive and <B> to </ B> regal with the <B> (10), </ B> in order to join with the variants of thicknesses of materials <B> (26) to </ B> regaling with <B> blade (10). </ B> Pushing rollers (14 <B>) </ B> mounted on a set of pivots <B > (17) </ B> (20) (21) <B> (23) (131) </ B> and (34) equipped with its mechanism, compensate for variations. The truck <B> (25) </ B> moves backwards until the wheels of the truck <B> (l 32) </ B> are <B> to </ B> touch the rollers (14). The mechanism <B> (18) </ B> with its hydraulic means <B> (19) </ B> mounted on pivots (20 <B>) </ B> and (2 <B> 1) </ B > allows the height of the rollers (14) to be adjusted according to the height of the center of the wheels of the truck <B> (25). </ B> The hydraulic means <B> (19) </ B> with its means pressure (24) absorbs <B> (1 3 6) </ B> shocks and allows permanent contact with the wheels <B> (l 32) </ B> of the truck <B > (25) </ B> and the rollers <B> (l </ B> 4). The assembly being held by the hook <B> (l 5) </ B> to the cup <B> (13) </ B> mounted on pivot (34) held by the means <B> (80) </ B > mounted on pivots (34) <B> (81) </ B> (12) is <B> at </ B> an opening <B> (137) </ B> ABC according to <B> - </ B> the material thickness <B> (26) to </ B> set A.B.C. The inventive combination of hydropneumatic means <B> (37) </ B> and (44) mounted on pivot <B> (39) </ B> and <B> (38) </ B> make it possible to exercise on pressure according to the material thicknesses with a variable control according to the development of the hydraulic means <B> (37), </ B> controlled with the measuring sensor <B> (69) </ B> which is displayed on the board (45 ), shown in the figure <B> 1, </ B> the adjustments are made according to the resistance of materials <B> (26A) </ B> (26B) <B> (26C) </ B> to compact, with the flotation of the pads which is more or less hard depending on the increase of the mixed air <B> to </ B> the oil in the pressure means (44) results in a more or less rigid compression. The present invention provides the blade assembly for leveling with vibrating pads, buckets for sloping and carrying, rollers for pushing the trucks, and shutters for retaining the materials in adjustment.

together being integral and multifunctional and can be oriented and <B> / </ B> or inclined and while maintaining a constant slope, by design The ouffl allows a snap <B> to </ B> several machines. Other aspects, objects and advantages of the present invention, the description and claim hereinafter. The present invention provides a set of technical combinations in the figures of <B> 1 to 9, </ B> which is described by way of non-limiting example, the said unknown invention <B> to </ B> today is particularly important by the embodiment of the invention.

Claims (1)

 Requests <B> 1. </ B> Assembly of multifunctional tools comprising: A first box-shaped frame <B> (6) </ B> enclosing means (46) for hydraulic distribution, <B> the </ B> frame at its rear end supporting interchangeable catching means (54) and <B> (55) </ B>, held by fixing means <B> 1 1 </ B> (5 <B> 0 </ B> '). the chassis (6) <B> to </ B> its upper front section <B> '' </ B> suppoeThe <B> (7) </ B> rotation means mounted on a pivot <B> ( 8) Central <B> (68) </ B> now a pair of hydraulic means (64) support a sensor <B> (70) </ B> for integral measurement of hydraulic means mounted on pivots <B> (65) </ B> and <B> (66) </ B> ball joint with <B> (10). <B> (6) </ B> at its front supports a middle <B> (9) </ B> vertically centered universal segment <B> (68) </ B> seloif the first means <B> (7). </ B> by these universal fastening means <B> (62) </ B> to the <B> (10) </ B> boxed <B> (67) </ B> blade and secured by these fixing means <B> (63) <B> (6) <B> (6) <B> (10) <B> <B> halfway between the top and bottom of the curve Blade <B> (10). </ B> A Pair of Hydraulic <B> (59) </ B> Mounted Front and Rear Chassis <B> (6) </ B> on Pivot <B> to </ B> ball joints <B> (61) </ B> and <B> to </ B> its back end by s pivots <B> to </ B> ball joint <B> (60) </ B> secured to chassis <B> (6). <B> blade (10) </ B> supports one pair of skids <B> (11 A) (11 </ B> B) mounted on pivots <B> (1 </ B> 2) support for chassis pairs <B> (</ B> 4 <B> 1) </ B> and (4 <B> 1 A) </ B> supporting pairs of insulators (42) (43). The pair of pads <B> (1 IA) (1 </ B> IB) supporting pairs of interchangeable round pieces <B> (73A) (73B) </ B> rounded and (130A) (130B) supported by the fastening means (74) <B> (75). </ B> The blade supports a pair of <B> (39) </ B> hydropneumatic means supporting a measuring sensor <B> (69) </ B> secured to a pressure means (44) supporting an adjustment valve <B> (72) </ B> to increase the amount of area to the dù-Ninué in Huil to increase the compressive strength. the hydropneumatic means <B> (37) </ B> <B> (69) </ B> (44) <B> (72) </ B> being pivotally mounted <B> (38) </ B> and <B> (39), </ B> the hydropneumatic assembly being made to exert pressures on the chassis pair (4 <B> 1) </ B> and (4 <B> 1 A) < / B> mounted on pivot <B> (1 </ B> 2), the pair of frames support a pair of resilient insulators (42) and (43) secured and maintaining the pads for closing and opening < B> (7 1) </ B> the pair of pads <B> (1 IA) </ B> and <B> (1 </ B> IB) equipped with the pair of expander <B> (73A) ( 73B) and (130A) (130B), the pair of pads being provided with a pair of vibrators (40). The blade <B> (10) </ B> supports <B> to </ B> > its lower part a pair of curved traps <B> (76) </ B> mounted on pivots <B> (77) </ B> equipped with means of pressure <B> (78) </ B> The blade supports a pair of specially shaped <B> cups (13) (125) </ B> <B> (127) (128) (16) </ B> actuated by a pair of hydraulic means <B> (80) < / B> mounted on pivots (34) (12) <B> (81) The <B> (10) </ B> blade supports a <B> (117) </ B> chassis that supports hydraulic <B> (1 </ B> 2) <B> 1) </ B> mounted on pair of pivots (122 <B>) (123) </ B> for inclination <B> to </ B> right and <B> to </ B> left <B> (10) </ B> blade <B> (125) </ B> and <B> (11) </ B> blade on the rotating <B> (l 18) <B> (13) </ B> supports a pair of means mounted on <B> (17) </ B> pivoting rollers (14) having an adjustment mechanism <B > (18) </ B> (22) pivot mount <B> (23) </ B> and a pair of hydraulic means <B> (19) </ B> provided with a pair of means pressure (24) pivot mounted assembly (20) (2 <B> 1). </ B> blade <B> (l 0) </ B> supports a pair of connecting rods <B> (33) </ B> to hang a pair of flaps <B> (29), </ B> the flap pair is orientable by approximately, <B> 0 'A 27' </ B> by these pivots <B> ( 30). </ B> actuated by the hydraulic means <B> (31), </ B> The support flaps of the wear means <B> (106) </ B> (114) held by means of <B> (107). </ B> Shutters with hooks <B> (32) </ B> attached to round rods <B> (33) </ B>, allowing pivoting <B> (95) </ B> so that these flaps are keyed with the means <B> (35) </ B> provided with the conical orifices (96) and introduced into the mechanisms <B> (98) </ B> to introduce the <B> (99) </ B> pivots sliding in holes <B> (96) </ B> under the pressure of <B> means (l 11) </ B> rendering sets <B> </ B> iolidaries of the blade. The set of flaps <B> (29) </ B> decoupling from the blade <B> (10) </ B> according to the pivot action <B> (l 10) </ B> of the mechanisms < B> (108) </ B> and releases the locking means (35) .Set of the hydraulic means its actuated hydraulic pressures contained in the hydraulic block (46), controlled by the manipulator (47) and (48) and controlled in the table (45) for the orientations, for the inclinations, for the openings and fennetures, for the controls of the pressures and compression, and adjustment of the thicknesses of the materials. include all the movement of the multifunctional tool, 2 <B>. </ B> Multifunctional tools according to claim 1. characterized by comprising a first frame <B>. 6) </ B> in the form of a box containing the hydraulic distribution means (46) supporting <B> to </ B> its rear part of the interchangeable attachment means (54) <B> (55) </ B> secured to this frame <B> (6) </ B> by the fixing means <B> (56) </ B> that this frame <B> (6) </ B> supports hydraulic means <B> ( 59) </ B> mounted on pivots <B> to </ B> ball joints <B> (60) </ B> on either side of the chassis <B> (6), </ B> than this chassis at its upper portion is secured to pivoting means <B> (7) </ B> pivot mounted <B> (8) </ B> central <B> (68). </ B> <B> 3. </ B> Multifunctional tools according to any one of the preceding claims, <B> 1 </ B> and 2 being characterized by the fact that the chassis <B> (6) </ B> supports a middle segment d universal joint <B> (9) </ B> vertically centered according to the first means <B> (7), </ B> the middle segment <B> (9) </ B> being secured to the frame <B> (6) </ B> by these fixing means <B> (63) 4. Multifunctional tools according to any one of the preceding claims, <B> 1. </ B> 2 and <B> 3 </ B> characterized by the fact that the second means of d universal joint <B> (9) </ B> is integral with the blade <B> (10) </ B> at its central part by means of universal fasteners <B> (62). </ B> < B> 5. </ B> Multifunctional tools according to any one of the preceding claims, from <B> 1 </ B> to 4. characterized in that the blade <B> (10) </ B> is attached to the chassis <B> (6) </ B> through the rotating means <B> (9) </ B> for the orientation of the blade <B> (10) </ B> with the pairs of hydraulic <B> (59) </ B> means mounted on pivot <B> (60) </ B> and <B> (61) to </ B> ball joints <B> to </ B> halfway between the top and bottom of the curve of the blade. <B> 6. </ B> Multifunction tools according to any one of the preceding claims, <B> 3. </ B> 4. and <B> 5 </ B> characterized by the fact that the vertically centered positions first <B> (7) </ B> pivot-mounted <B> (8) </ B> central <B> (68) </ B> supports a pair of hydraulic means (64) mounted on ball joints <B> (65) </ B> and <B> (66) </ B> they support a measuring caktor <B> (70) </ B> for inclination control l 'sets is determined to allow <B> to </ B> the multifunction tool to orient <B> (88) </ B> with hydraulic means <B> (59) </ B> and ùe s' incaer <B> (91) </ B> with the hydraulic means (64) according to the design of the means of rotation (9) .and <B> (7) </ B> <B> 7. </ B> Tools multifunctional according to any one of the preceding claims, from <B> 1 </ B> to <B> 6 </ B> characterized by the fact that the blade <B> (10) </ B> is determined to allow <B > to </ B> the <B> (10) </ B> blade to orient <B> (88) </ B> approximately from <B> 0 'to 27 '</ B> right and left support a pair of <B> (11 A) </ B> and <B> (11 </ B> B) skates mounted on pivots <B> (1 </ B> 2) integral with the insulators (42) (43) provided with pieces <B> (73A) (73B) </ B> and (130A) <B> (1 </ B> 30B) interchangeable expansions integral with the pads <B> (11 A) (1 </ B> IB) by means of fasteners (74) <B> (75). <B> 8. </ B> Multifunctional tools according to any one of the preceding claims <B> 7. </ B> are characterized by the fact that the <B> (10) </ B> blade supports a pair of <B> (39) </ b> hydropneumatic means, one of which supports a sensor ( 69) for the control of the development, integral with the pair of pressure means (44) equipped with valve <B> (72) </ B> adjustment for increased the amount of area to the diminished in oil in order to have control of the compressive strength on the pair of pivot-mounted frames (40) and (41) (12), the pair of hydropneumatic means <B> (39) </ B> being pivotally mounted <B > (39) </ B> and <B> (38) < / B> <B> 9. </ B> Multifunctional tools according to the preceding claims of <B> 1 to 8 </ B> are characterized by the fact that the shape of the symmetrical pads <B> (1 IA) </ B > and <B> (I </ B> IB) has symmetrical shaped parts <B> (73A) (73B) </ B> rounded upwards ending in a point <B> (92) </ B> is determined to be interchangeable maintained by these fastening means <B> (75) </ B> (74), integral with the skids <B> (1 IA) (1 </ B> IB) for compacting backward action <B> (87A) </ B> and <B> (87B) </ B> with the <B> (10) </ B> blade and the <B> (11 A) </ B> pads and ( I <B> 1 </ B> B) oriented approximately from <B> 0 'A 27' </ B> left to a must, and compacted different widths with the pair of pieces (130A) (130B) no Ininitatifs. <B> 10. </ B> Multifunctional tools according to any one of the preceding claims <B> 9 </ B> are characterized by the fact that the grading wool <B> (10) </ B> supports a bucket < B> (l 3) </ B> hydraulically rounded <B> (16) </ B> to allow hooking with hooks <B> (15) </ B> and secured to the bucket < B> (13) </ B> by these fastening means <B> (36). </ B> <B> 11. </ B> Multifunctional tools according to the claims of <B> 1 to 9 </ B > and <B> 10. </ B> Characterized by the fact that the bucket <B> (13) </ B> supports a set of pairs of wheels, qVx (14) is determined to allow the trucks to be pushed, in re # sCr #, pt <B> (26) </ B> materials in <B> bucket (13) </ B> leveled with the <B> (10) </ B> blade and compact them, r with vibrating pads <B> (1 IA) (1 </ B> IB) in continuous forward motion. 12 <B>. </ B> Multifunctional tools according to claims <B> 10 </ B> and <B> 11. </ B> SE Characterized by the fact that a pair of push rollers (14 <B> ) </ B> mounted on pivots <B> (17), </ B> integral with the mechanism <B> (l 8) </ B> mounted on pivots <B> (23), </ B> it equipped with hydraulic means <B> (19) </ B> mounted on pivots (20) (21) supporting a pressure means. (24) The assembly being maintained <B> at </ B> a predetermined height through the opening of the bucket <B> (13). </ B> 13. Multifunctional tools according to claim, <B> 10. 11 </ B> i 2 being characterized by the fact that the mechanism <B> (18) </ B> mounted on pivots <B> (23) </ B> equipped with its hydraulic means <B> (19) </ B> is mounted to pivot (20) (2 <B> 1) </ B> is determined to allow to adjust the height of the rollers (14) at the center of the wheels <B> (25) </ B> according to the bucket opening <B> (13) </ B> for material thicknesses <B> to </ B> set <B> (26 A) (26 </ B> B) <B> (26C). 14. Multifunctional tools according to the claims, <B> 8. 9. 10 </ B> and <B> 11. </ B> Characterized by the fact that the hydraulic means <B> (19) </ B> support the pressure means (24) and determined, to allow absorb shocks and must have permanent contact with <B> (132) </ B> truck wheels <B> (25) </ B> <B> 15. </ B> Multifunctional tools according to the preceding claims from <B> 1 to </ B> 14 characterized by the fact that the blade <B> (10) </ B> supports a pair of rods <B> (33) </ B> rounded to allow to hang <B> (32) </ B> a pair of flaps <B> (29) </ B> and key them with means <B> (35) </ B> with a conical hole <B> (96) </ B> to receive the means <B> (99) </ B> being secured to the <B> mechanism (98) </ B> supported by the <B> blade (10), </ B > the pair of shutters <B> (29A) </ B> (29B) mounted on pivots <B> (30) </ B> orientable from <B> 0 'to 27' </ B> approximately, the shutters < B> (29) </ B> supports hydraulic means (104) being determined to allow independent orientation and keep alignment with c the pairs of pieces <B> (73A) (73B) (13 </ B> OA) (1 <B> 3 </ B> OB), to maintain the materials <B> (26) </ B> according to the right and left orientation of the <B> (10) </ B> grader blade. <B> 16. </ B> Multifunctional tools according to the preceding claims from <B> 1 <I> to </ I> 15 </ B> Characterized by the fact that the blade <B> (10) </ B > supporting means of rotation <B> (118) </ B> is determined to allow to receive a chassis <B> (l 17) </ B> to be hooked <B> to </ B> a hydraulic excavator with the pivots (124) the chassis <B> (117), </ B> the chassis provided with hydraulic means (121) pivotally mounted (122) <B> (123) </ B> for tilting < B> to </ B> right and left <B>, </ B> the entire bucket <B> (1 </ B> 2 <B> 5) </ B> and <B> pad (l 1 </ B> # <B> 17. </ B> Multifunctional tools according to the preceding claims <B> 1 </ B> a <B> 16 </ B> are characterized by the fact that the bucket <B> 125) </ B> with pint <B> (126) </ B> has a rounded shape (<B> 127) </ B> for a double bottom <B> (128) </ B> and <B > (129). </ B>