Four brakes system for the doors of excavator buckets

Abstract

A brake system for the doors of excavator buckets which increases the braking force of the doors, allowing the use of heavier caps with more shield, increasing the durability and reliability, cushioning the blows of the door against the frame of the bucket and decreasing the likelihood that the whole system is deregulated at the same time.

Claims

1. An excavator bucket comprising: a bucket; a door hingedly connected to the bucket; and a braking system including: a first pair of brakes affixed to the bucket, each of the first pair of brakes having a first trajectory angle; a second pair of brakes affixed to the bucket and disposed between the first pair of brakes, each of the second pair of brakes having a second trajectory angle different than the first trajectory angle; and a plurality of linking arms, each linking arm connected at a first end to one brake of either the first pair of brakes or the second pair of brakes and connected at a second end to the door.

2. The excavator bucket of claim 1, wherein the linking arms connected to each of the brakes of the first pair of brakes is connected at the second end to an extension arm of the door.

3. The excavator bucket of claim 1, wherein the linking arms connected to each of the brakes of the second pair of brakes is connected at the second end to an upper part of the door.

4. The excavator bucket of claim 1, wherein the brakes of the first pair of brakes are disposed along a first line on the bucket.

5. The excavator bucket of claim 4, wherein the brakes of the second pair of brakes are disposed along a second line on the bucket, the second line being offset from the first line.

6. The excavator bucket of claim 5, wherein the second line is disposed nearer the door than is the first line.

7. The excavator bucket of claim 1, wherein at least one of the brakes is a hydraulic brake.

8. The excavator bucket of claim 1, wherein at least one of the brakes is a mechanical brake.

Description

BRIEF DESCRIPTION OF THE FIGURES

(1) FIG. 1 shows an hydraulic brake.

(2) FIG. 2 shows a mechanical brake.

(3) FIG. 3 shows a brake and its activating accessories.

(4) FIG. 4 shows an excavator bucket that uses brakes.

(5) FIG. 5 shows a view of the four brakes already placed.

(6) FIG. 6 shows the installation details of the new brakes.

(7) FIG. 7 shows a lateral view of the four brakes for an open and closed position of the door.

(8) FIG. 8a shows a diagram of the installation of two pairs of non-aligned brakes.

(9) FIG. 8b shows a diagram of the installation of two pairs of aligned brakes.

DETAILED DESCRIPTION OF THE INVENTION

(10) The disclosure proposed can indistinctly be used with brake pairs (1,2) that can be mechanical, hydraulic, or a combination of thereof. As can be appreciated from FIG. 4, a pair of hydraulic brakes are shown (30) traditionally installed in excavator bucket (16). FIG. 5 shows a preferred embodiment of the invention, in which is observed a first pair of brakes (1) aligned between them and a second pair of brakes (2) also aligned between them but in a different line from the first pair of brakes (1) and with different trajectories, these pairs of brakes (1, 2) are used with the aim to buffer the repeated closing of the door (4) that otherwise will strongly hit the frame damaging it.

(11) The disclosure proposed uses four brakes as shown in FIG. 5, the first pair of brakes (1) is located in front of the extension arms of the door (8) and the second pair of brakes (2), aligned between them, is located in a different line to the first pair (1), they are fixed to the bucket's structure in front of the door's upper part (7) between the first pair of brakes (1) that conform the original arrangement, the second pair of brakes (2) are connected by means of a linking arm (5) with perforations in their two ends to the door (4), one of the ends of the merger arm (5) is pivotally fixed to the upper part of the door (7) and the other end is pivotally fixed to the break (2). The connection of the arm to the door's upper part (7) is done by a system of bolt and plates (6) that are located in the same upper part of the door (7), whereas the other end of the linking arm (5) is fixed to the brake arm (12) that also has a perforation (13) for this effect.

(12) The door (4) swings with respect to the bucket (3) by means of extension arms (8) that conform the door's structure and that a perforation on each of it ends and those ends are introduced between two plates (14) welded to the bucket, a bolt (9) pass through the extension arm end (8) and the perforations of the two plates (14) when those are aligned conforming the plates (14), the bolt (9) and the extension arm (8) forms a hinge. Regarding to the types of connection of the brakes to the bucket's structure (3) they are two types either when the brakes are mechanical or hydraulic, the first system consists in a connection with plates and bolts (A) and the second system consists in a welding base (B), in the case of this disclosure, both connection systems can be employed or a combination of thereof.

(13) In general and with respect to the disposition and characteristics of the braking system different dispositions can be adopted, this is: The brake system is composed by a first and a second pair of brakes wherein each brake pair is composed for two identical brakes that are either hydraulic or mechanical, aligned between them and that are composed by either: a first disposition wherein the first and second pair of brakes have the same trajectory between them, or in particular the first and second pair of brakes have a different trajectory between them wherein the first pair of brakes is non-aligned with respect to the second pair of brakes; or a second disposition wherein the first and second pair of brakes have the same trajectory between them, or in particular the first and second pair of brakes have a different trajectory between them wherein the first pair of brakes is aligned with respect to the second pair of brakes

(14) As can be observed in FIG. 7 the trajectory angles for each break are shown (1, 2). Because they don't share the same geometrical conditions, they have a different trajectory, that is, for a given angle of door opening (4), the trajectory angle of the second pair of brakes (2) is different to the trajectory angle of the first pair of brakes (1). Therefore, the brakes are deregulated in a mismatched form in time.

(15) In FIG. 8a it can be observed two pair of non-aligned brakes, the brakes in this case are aligned in two lines D and E, in FIG. 8b are shown two pairs of brakes aligned according the a sole line C.