| JPH1088607 | VARIABLE CAPACITY BUCKET DEVICE |
| JP2023543984 | Virtual boundary system for work machines |
RISI MIRCO (IT)
| WO2004026478A2 | 2004-04-01 | |||
| WO2006097179A2 | 2006-09-21 | |||
| WO2001014651A1 | 2001-03-01 | |||
| WO1994000644A1 | 1994-01-06 |
| EP1001093A1 | 2000-05-17 | |||
| US5887810A | 1999-03-30 | |||
| US4852277A | 1989-08-01 | |||
| EP1267002A1 | 2002-12-18 | |||
| JPH1030247A | 1998-02-03 | |||
| US5379534A | 1995-01-10 | |||
| US5485689A | 1996-01-23 |
Claims
1) A bucket (B) that is applicable interchangeably to operating machines provided with hydraulic or electric plant, equipped with one or more rotors (R) actuated by one or more hydraulic or electric (M) engines or gear motors fed by the hydraulic or electric circuit resting inside operating machines or outside the bucket.
2) A bucket (B) that is applicable interchangeably to operating machines, as in previous claim, characterized by the fact that the bucket present a special opening (S) for the emptying out of the debris (D) resulting from the crushing of the material loaded inside the bucket (B).
3) A bucket (B), as in previous claims, characterized by the fact that the size and shape of the debris (D) of the crushed material can be varied or regulated by changing the position, the morphology and the dimensions of the crushing or cutting tools, either fixed or rotating.
4) A bucket (B), as in the previous claim, characterized by the fact that upon the rotors (R) are applied blades (L) especially located and different in number, placement, dimension and geometric shape.
5) A bucket, as in the previous claims, characterized by the fact that said blades (L) interact with fixed or mobile plates (F) especially shaped and interchangeable, also to vary and regulate the composition of the crushed material.
6) A bucket, as in the previous claims, characterized by the fact that a motor or rotor, or the motors or hydraulic or electric rotors (M) are applied externally or inside the bucket.
7) A bucket, as in the previous claims, characterized by the fact that the upper opening (A) for the opening of the bucket can be closed with the lid (K) to improve the safety conditions or to intervene actively on the work process. 8) A bucket, as in the previous claims, characterized by the fact that the mouth to empty out (S) the crushed material can be closed with the cover (H) to optimize the operating conditions during the movements of the operating machines.
9) A bucket, as in the previous claims, characterized by the fact that it is equipped by two or more rotors (R, R').
10) A bucket, as in the previous claims, characterized by the fact that the plates (F) can be made of surfaces that are either flat, shaped, cylindrical, and also fixed or mobile, moving or rotating. |
A bucket that is applicable interchangeably to operating machines provided with hydraulic or electric plant Field of the art
The present invention refers to the technology of equipment applied to operating machines provided with hydraulic or electric plant, and in particular to the buckets of the loading and digging machines. The international classification of reference is E 01 C.
State of the art
Machines to crush stones or different kinds of debris are known. The problem to be solved is that of equipping operating machines of small dimensions with buckets provided with rotating crushing devices activated by engines hydraulic or electric gear motors fed by the hydraulic or electric circuit resting inside operating machines or outside the bucket.
Description
The invention is now disclosed with reference to the figures of the attached drawings, as unrestrictive example.
Figure 1 shows schematically in a transversal section a bucket (B) inside which there is at least one rotor (R) provided with a crushing blade (L) that interacts with the fixed plates (F) applied inside the bucket. It can be noticed the presence of the upper feed opening (A) and of the lower emptying out mouth (S).
Figure 2 shows schematically in a transversal section a bucket (B) inside which there is a rotor (R) provided with two crushing blades (L') that interact with the fixed blades (F').
Figure 3 shows schematically in a transversal section a bucket with the rotor provided with three crushing blades (L") that interact with fixed blades (F") that are especially shaped.
Figure 4 shows schematically in transversal section a bucket with the rotor provided with four crushing blades (L'") that interact with the matching fixed plates (F'").
Figure 5 shows a bucket (B) during the crushing operation of the various material and the emptying out of the resulting debris. Figure 6 shows schematically in section a bucket (B) provided with an upper lid (K) closing the feeding opening and a lid (H) closing the emptying out mouth.
Figure 7 shows an operating machine (T) equipped with a bucket (B) in loading position.
Figure 8 shows an operating machines (T) provided with a bucket (B) in the position of crushing the previously loaded material.
Figure 9 shows an operating machine (T') with the bucket (B), working towards the operating machines, in operating position of crushing the previously loaded material.
Figure 10 shows an operating machine (T') equipped with the bucket (B) that works in the opposite direction.
Figures 11a, l ib, l ie, Hd and l ie show some examples of different type of crushing blades located on the rotor in a different number and different fashion.
Figure 12 shows schematically in plant the bucket (B) equipped with a rotor (R) provided with crushing blades (L) interacting with their respective fixed plates (F). It can be noticed that the rotor (R) is actuated by two engines or by two hydraulic or electric rotors (M, M'), both inside the body of the bucket (B).
Figure 13 shows schematically the application of two motors or rotors (M, M') outside the body of the bucket (B).
Figure 14 shows schematically the application of a single engine or rotor (M) inside the bucket (B).
Figure 15 shows schematically the application of a single engine or rotor (M) outside the bucket (B).
Figure 16 shows schematically a bucket equipped internally with two rotors (R, R'). Figure 17a, 17b, 17c, 17d show schematically a bucket whose fixed plates are respectively replaced by a flat surface, or by a shaped surface, or by a cylindrical surface, or by different shapes, either fixed, moving or rotating.
The clearness of the figures highlights the executive and operative simplicity of the present invention, which wholly solves all the technical problems ensuring a security and total functioning reliability, coupled with a extreme affordability in the practical realization. Now that the original inventive features of the present invention have been disclosed, any average technician skilled in this specific technological field will be able to realize, with simple logical deductions and without any inventive effort, buckets that are interchangeably applicable to operating machines provided with hydraulic or electric plant, that rests either inside of the machine or nonetheless outside the bucket, that will present the very original features of the present invention as so far described, illustrated and hereinafter claimed.