RU2509843C1 - Working equipment of hydraulic excavator - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: ripper tip is made with a U-shaped stand and a bracket at the rear side, and also by hydraulic fixators in the bracket and in the U-shaped stand. The ripper tip is fixed to the handle by one hinged joint together with the bracket and as capable of disconnection with a crank with the help of a hydraulic fixator in the U-shaped stand. Also with the possibility of connection in non-working condition to a hinged joint on the handle with the help of a hydraulic fixator in the ripper tip bracket. In working position, i.e. during tillage, the ripper tip is connected to the crankshaft by the hydraulic fixator in the U-shaped stand. Hydraulic fixators in the bracket and in the U-shaped stand of the ripper tip installed in the transverse plane of the ripper tip comprise hydraulic cylinders of double-sided action. Stems of hydraulic cylinders are connected to sliding fixators capable of entering the hinged joints on the handle and in the crankshaft.

EFFECT: reduced costs for manufacturing, reduced energy losses for process of excavation and tillage, simplified assembly and disassembly of tillage equipment.

2 cl, 4 dwg

Description

The invention relates to the field of construction, namely to earthmoving equipment, and can be used on single bucket excavators with a rotary bucket.

Known working equipment of a hydraulic excavator, including a handle, bucket, loosening tooth, hydraulic cylinders for controlling the bucket and loosening tooth (USSR author's certificate No. 1719553 M. Cl. E02F 3/28). This design of the working equipment provides loosening of the soil with a cultivator tooth and digging with a bucket.

However, a ripping tooth pressed from the bottom of the bucket takes up a significant part of the useful area of the longitudinal profile of the bucket, and therefore its capacity. This leads to reduced excavator performance.

The closest technical solution to the invention is the working equipment of a hydraulic excavator, including a handle, a bucket, a loosening tooth located inside the handle, hydraulic cylinders for controlling the bucket and loosening tooth (Patent of the Russian Federation No. 2122073 E02F 3/28). This design allows successively destroying the soil with a cultivator tooth and digging the destroyed mass with a rotary bucket.

However, the loosening tooth located inside the handle makes it necessary to expand the internal cavity of the handle and, consequently, to increase the dimensions and weight of the handle. This circumstance leads to an increase in energy costs for the working movements of equipment. In addition, the mounting and dismantling of the ripping equipment is difficult.

The technical problem to which the claimed invention is directed is to reduce manufacturing costs, reduce energy costs for the process of excavation and loosening, as well as simplify the installation and dismantling of loosening equipment.

This object is achieved in that the loosening tooth with a U-shaped stand and an arm on the back, as well as hydraulic clamps in the arm and in the U-shaped stand, is fixed to the handle with one hinge along with a crank and with the possibility of disengagement with the crank using a hydraulic clamp in P -shaped stand and attachment inoperative to the hinge on the handle with the help of a hydraulic lock in the bracket of the ripping tooth, and in working condition, i.e. when loosening, the loosening tooth is connected to the crank with a hydraulic clamp in a U-shaped rack.

In addition, the difference lies in the fact that the hydraulic clamps in the bracket and in the U-shaped stand of the ripping tooth, mounted in the transverse plane of the ripping tooth, contain double-acting hydraulic cylinders, the rods of which are connected to sliding clamps that can enter the hinges on the handle and in the crank .

Differences from the closest analogue are in a number of essential features:

- the loosening tooth is fixed not inside the handle, but outside it, and is controlled by the same power hydraulic cylinder as the bucket;

- when the excavator is working with a bucket, a ripping tooth is attached to the handle using a hydraulic clamp;

- when the excavator destroys strong soils, the loosening tooth is attached to the crank with the help of a second hydraulic lock and goes into working position.

The invention is illustrated in the drawing, where figure 1 shows the side of the working equipment when digging with a bucket; figure 2 - working equipment on the side when loosening the soil; figure 3 is a longitudinal section (aa) along the hydraulic fixture of the attachment of a loosening tooth to the metal structure of the crank; figure 4 is a view from the back of the ripping tooth and crank.

The working equipment of a hydraulic excavator consists of an arrow 1, a handle 2, a hydraulic cylinder for turning a handle 3, a bucket 4, a crank 5, a rod 6, a loosening tooth 7, rigidly connected to a U-shaped rack 8 and an arm 9, a hydraulic mechanism 10 for turning a bucket or a loosening tooth, hydraulic clamp 11, located in the bracket of the ripping tooth, and necessary to fix the ripping tooth inoperative to the handle, with a double-acting hydraulic cylinder 12 and sliding clamps 13, hydraulic clamp 14, placed in a U-shaped with cradle 8, with the same elements as the hydraulic fixture 11, the hinge of fastening the loosening tooth to the handle 15, the hinge of fastening the loosening tooth to the crank 16 and the hinge 17 of fastening to the handle 2 of the loosening tooth 7 and the crank 5.

The working equipment of a hydraulic excavator operates as follows. When digging with a bucket 4, the loosening tooth 7 is secured by the bracket 9 to the handle 2 in the hinge 15 using a hydraulic clamp 11 with a double-acting hydraulic cylinder 12 and sliding clamps 13. Then the crank 5 is disconnected from the loosening tooth 7 and, under the influence of the hydraulic mechanism 10, can rotate the bucket 4 through the rod 6 and therefore digging the ground.

To ensure the functioning of the loosening tooth 7, it is necessary to insert the crank 5 with the help of a hydraulic mechanism 10 into the opening of the U-shaped strut 8 and align the joints 16 in the crank 5 and the U-shaped strut 8 and fix the loosening tooth 7 using the hydraulic lock 14. Then rotate the hydraulic mechanism 10 a loosening tooth 7 together with a crank 5, a rod 6 and a bucket 4 to the initial position for loosening (figure 2). Loosening of the soil is carried out under the influence of the hydraulic cylinder of rotation of the handle 3, mounted on the boom 1.

The essential features that distinguish the working equipment of a hydraulic excavator from the closest analogue allow to obtain the following technical result:

- reducing the size and weight of the working equipment;

- reduction in manufacturing costs;

- reduction of energy costs for the process of digging and loosening of soils due to a decrease in the gravity of the equipment;

- simplification of installation and dismantling of ripping equipment.

Claims (2)

1. The working equipment of a hydraulic excavator, including an arrow, a handle, a crank, a bucket, traction, a loosening tooth, a hydraulic cylinder for turning the handle and a hydraulic mechanism for turning the bucket, characterized in that the loosening tooth is made with a U-shaped rack and an arm on the rear side, as well as hydraulic clamps in the bracket and in the U-shaped rack, fixed to the handle with one hinge with the bracket and with the possibility of disconnecting with the crank using the hydraulic clamp in the U-shaped rack and attaching it in the inoperative state to the hinge on the handle with the help of a hydraulic fixator in the bracket of a ripping tooth, and in working condition when loosening, the loosening tooth is connected to the crank with a hydraulic clamp in a U-shaped rack. 2. The working equipment of the hydraulic excavator according to claim 1, characterized in that the hydraulic clamps in the bracket and in the U-shaped rack of the ripping tooth are installed in the transverse plane of the ripping tooth, contain double-acting hydraulic cylinders, the rods of which are connected to sliding clamps that can enter the hinges on the handle and crank.

Images