RU2401360C1 - Hydraulic loader work equipment - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: proposed equipment comprises bucket pivoted to the boom, bucket and boom control hydraulic cylinders and gripper made up of two articulated rotary sections furnished with hydraulic control cylinders. Bucket front part has cutouts made in bottom part and along edges of lateral walls. Note here that aforesaid gripper is arranged in cutouts of bucket lateral walls.

EFFECT: perfected design, expanded performances.

2 cl, 2 dwg

Description

The invention relates to the working bodies of loading and unloading machines, in particular to the working equipment of a front-end loader, and can be used in excavation and loading and unloading operations.

Known working equipment of a bulldozer with a gripping device in the form of a controlled section, the rotation of which is carried out by a hydraulic cylinder mounted on the lower stiffener box (RF certificate No. 4541 for utility model, class E02F 3/76, 1997). The advantage of such a system is its simplicity while maintaining the versatility of working equipment. However, this equipment does not provide unloading of goods from vehicles due to the small capture radius with insufficient elevation of the bulldozer blade. In addition, work can only be carried out with small-sized cross-sectional loads.

It is also known the working equipment of a hydraulic loader with a controlled fork, pivotally mounted on an arrow and connected to a bucket by an articulated link. The capture is rotated by turning the loader bucket (RF patent No. 2164984, class E02F 3/40, 2001). This system allows you to carry out a full cycle of loading and unloading with hollow and small loads, however, it has increased complexity and metal consumption.

It is also known the working equipment of a hydraulic loader with two controlled rotary sections installed in the cutout of the working equipment (RF patent No. 2276234, class E02F 3/40, 2006). This working equipment is multifunctional, but due to the deep cutouts of the bucket its reliability is not high enough.

The objective of the invention is the improvement, expansion of the functionality of the working equipment of the hydraulic loader while maintaining low metal structure and its high adaptability, while increasing operational reliability.

This is achieved by the fact that the working equipment of the hydraulic loader, including a bucket pivotally mounted on the boom, bucket and boom control cylinders and a gripper in the form of two rotary sections pivotally mounted and equipped with control cylinders, characterized in that the front part of the bucket is made with cutouts in the lower part and along the edges of the side walls, and the gripper is installed in the cutouts of the side walls of the bucket. The rotary sections are combined at the bottom with a stiffener with a knife edge and are made along the profile of the front of the bucket.

The rods of the control cylinders are fixed in the eyes of the rotary section. As a result, the versatility of working equipment is increased due to the possibility of capturing goods using controlled rotary sections, the use of modified working equipment as a forklift truck with the ability to capture goods, including unbound and loosely coupled ones. In addition, cutouts are located at the edges of the bucket, which significantly increases the rigidity of the structure compared to options where the bucket is actually cut. Also, to increase the rigidity and versatility of the structure, the lower stiffening rib of the rotary section with a cutting edge and the axis of attachment of hydraulic cylinders to the bucket is used.

The essence of the design is illustrated by the drawing, where figure 1 shows the working equipment of a hydraulic loader with a gripper in a lowered position (front view); figure 2 is the same side view. The dotted line in figure 1 shows the position of the rotary sections in the raised position.

The working equipment includes a bucket 1, pivotally mounted on the boom 2, hydraulic cylinders for controlling the bucket and boom (not shown conventionally in the drawing) and a gripping device 3. The front part of the bucket is made with cutouts in the lower part and along the edges of the side walls, and the gripping device 3 is in in the form of two rotary sections pivotally mounted in the cutouts using the eye 5 and equipped with control cylinders 4, which are mounted on the back surface of the bucket 1 in the eyes 6, and their rods in the eyes 7. The rotary sections 3 are combined in the lower part of the rib 8 with stiffening blade edge and formed along the profile of the bucket front.

The action of the working equipment is as follows. At the beginning of the operation, the rods of the control cylinders 4 are fully extended, the sections 3 are in the lowest position, closing their working surface with the surface of the bucket 1. After moving the loader bucket 1 to the required angle and height, the rods of the cylinders 4 are retracted. In this case, the controlled sections 3 can move clockwise in the eyes 5 to the position necessary to pick up the load. The lower part of the sections enters under the load or into the cavity of the load and moves it to the storage location using working equipment. Next, the lower part of the rotary section 3 is released from under the load, the rods of the hydraulic cylinders 4 are extended, and the rotary sections 3, rotating counterclockwise in the eyes 5, return to their original position, which ensures the operation of the front-end loader according to the traditional scheme.

When capturing soft-bound loads from inclined surfaces, the rotary sections 3 are in the upper position and, using the control cylinders 4, press the soft-bound load to the bucket.

The proposed working equipment in comparison with the prototype has greater versatility and somewhat greater reliability due to increased rigidity, while the metal consumption does not increase. Moreover, it becomes possible to work with various cargoes, including unbound ones, as well as use this equipment as a multifunctional forklift truck that can capture hollow loads. All of the above allows us to talk about improving the structural and technological capabilities of the proposed design compared to the prototype.

Claims (2)

1. The operating equipment of the hydraulic loader, including a bucket pivotally mounted on the boom, bucket and boom control cylinders and a gripping device in the form of two rotary sections pivotally mounted and equipped with control cylinders, characterized in that the front part of the bucket is made with cutouts in the lower part and along the edges of the side walls, and the gripper is installed in the cutouts of the side walls of the bucket. 2. The working equipment according to claim 1, characterized in that the rotary sections are combined at the bottom with a stiffener with a knife edge and are made along the profile of the front part of the bucket.

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