RU2052026C1 - Vibration driven working member of excavating machine - Google Patents

Abstract

FIELD: building equipment. SUBSTANCE: vibration driven building member of excavating machine has back wall and front screen of blade interconnected with a hinge placed in the space between them, flexible link, cavity filled with working medium placed in the space between back wall and front sheet, and mechanical sound generator. The hinge is placed in the bottom of working member. Flexible link is placed on the top. The cavity is placed under the hinge. Sound generator is interconnected to the cavity with a wave guide to generate closed mechanical/acoustic system. Under the cavity there is additional cavity in the space between front sheet and back wall. EFFECT: high productivity. 2 cl, 2 dwg

Description

 The invention relates to earthmoving machines such as bulldozers, graders and vibroactive working bodies.

 Known working bodies of machines of this type (ed. St. N 759664), in which the intensification of the process of soil development and its movement on the dump surface of the working body is provided by the excitation of vibrations transmitted by a pulsating working medium. The working medium in this solution is liquid, and the exciter is made in the form of a hydro-pulsator, which is associated with the use of a complex hydraulic system with a tank, pump, and hydraulic equipment. The constructive solution of the working body does not allow to develop high oscillatory power.

The working body of the earth-moving machine is also known, which includes a back wall and a frontal sheet, interconnected by a hinge and elastic connection, the hinge being located in the upper part of the support body and the frontal sheet, and a cavity for a pulsating hydraulic medium is formed under the hinge. The solution improves the process performance, but the oscillation excitation system remains complex and cumbersome, and the vibrational force on the lower edge of the windshield remains low and insufficient for the development of, for example, hard rocks [2]
The aim of the invention is to increase the intensity of the process of soil development by the working body and the expansion of its technological capabilities for the development of solid materials. This is achieved by the fact that in the working body, which includes the back wall, the frontal sheet, the connecting hinge, the elastic connection and the cavity filled with the working medium and connected with the oscillator of the working medium, the hinge is located in the lower part of the working body, the elastic connection in its upper part , and the cavity above the hinge. The cavity is connected using a waveguide to an oscillation generator, made in the form of a mechanical sound generator, with the formation of a closed mechanoacoustic system.

 An additional cavity can be formed between the rear wall and the frontal sheet under the hinge, and the sound generator is made bilateral with two antiphase working chambers, one of which is connected by the waveguide to the main one and the other to the additional cavity. In this embodiment of the working body, the vibrational power is doubled.

 Figure 1 presents the vibroactive working body of an earth moving machine, a section; figure 2 is another of its execution, section.

 The vibroactive working body of the digging machine includes a rear wall 1 and a frontal sheet 2 with a cutting knife 3. The frontal sheet 2 is connected to the rear wall by a connecting hinge 4 and an elastic connection 5. The hinge 4 is located in the lower part of the rear wall 1 and the frontal sheet 2, and the elastic connection 5 at their top. Above the connecting hinge 4, with the help of an elastic element 6, a main cavity 7 is formed, which is filled with a gaseous medium and connected by a waveguide 8 with a mechanical sound generator 9.

 In FIG. 2, the joint 4 is also located at the bottom. Under the hinge with the help of the elastic element 10, an additional cavity 11 is formed, filled with a gaseous medium. The mechanical sound generator 9 is made bilateral with two antiphase working chambers 12 and 13. The working chamber 12 is connected by the waveguide 8 with the main cavity 7, and the working chamber 13 by the waveguide 14 with the additional cavity 11.

 When you turn on the sound generator 9, its piston makes a reciprocating motion. The vibrational energy of the piston is transmitted to a gaseous medium, for example, air in a closed system: a generator-waveguide-converter in the form of condensation and rarefaction waves. Propagating at the speed of sound, the waves are converted into vibrational pressure acting on the working body. Performing angular vibrations around the connecting hinge 4 in a vertical plane, the frontal sheet with a cutting knife 3 develops soil while transmitting vibration to it, which reduces cutting resistance. The location of the connecting hinge in the lower part of the working body provides an increase in the cutting force on the knife 3 and the possibility of developing solid materials, chipping ice, and other similar operations.

 The working body in figure 2 works in a similar way. Oscillating energy from a double-acting sound generator comes simultaneously, but in antiphase, to the main and additional cavities 7 and 11, which are located on both sides of the hinge 4. This allows you to approximately double the vibrational force developed by the lever mechanism.

 Performing angular oscillations in the vertical plane, the frontal sheet with a cutting knife 3 cuts the soil along the entire length of the knife and throws it from the blade in front of itself, which allows the machine to more effectively cut and level the soil.

Claims (2)

 1. VIBROACTIVE WORKING BODY OF THE EARTHING MACHINE, including the rear wall and the frontal sheet of the blade, interconnected by a hinge located in the space between them, an elastic connection, a cavity filled with the working medium, located in the space between the rear wall and the frontal sheet, and the oscillator of the working medium, characterized in that the hinge is located in the lower part of the working body, the elastic connection is in its upper part, and the cavity is placed above the hinge, while the oscillator of the working medium is made in the form of a mechanical and a sound generator connected to the cavity via a waveguide to form a closed system mehanoakusticheskoy.  2. The working body according to claim 1, characterized in that an additional cavity is placed in the space between the frontal sheet and the rear wall under the hinge, and the sound generator is made bilateral with two antiphase working chambers, one of which is connected via the waveguide to the main cavity, and the other by means of a waveguide - with an additional cavity.

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