RU1783079C - Power shovel boom - Google Patents

Abstract

The invention relates to mining, and in particular to the construction of bucket excavators. The goal is to increase mechanical strength and reliability and reduce repair costs. The boom of the excavator contains interconnected supporting longitudinal and transverse elements and external elements with technological openings. Each process aperture is limited by a diaphragm which is connected to the external circuit by perimeter / process aperture welding. Each diaphragm is made of a strip curved in the form of a spiral. The outer contour of the spiral diaphragm corresponds to the contour of the technological opening. The end of the spiral located on the inner surface of the diaphragm is fixed to the previous turn by welding. 2 ill.

Description

The invention relates to mining, and in particular to the construction of bucket excavators.

Excavators are known in which the boom has a welded structure and, during prolonged use, the integrity of the weld is impaired, which leads to the need for long-term repairs.

The closest in technical essence is the boom of the ECG-20 excavator, which includes interconnected supporting elements and external elements with technological openings, each of which is limited by a diaphragm connected to the external element by welding along the perimeter of the technological opening

The disadvantage of this design is the occurrence of high voltage

corners of technological openings, which leads to the appearance of rapidly propagating cracks that extend to the internal walls of the boom. In this case, boom repair is associated with large time and material costs.

The aim of the invention is to increase mechanical strength and reliability and reduce repair costs.

The goal is achieved in that in the boom of the excavator, which includes interconnected supporting longitudinal and transverse elements and external elements with technological openings, each of which is limited by a diaphragm, connected by welding with external elements rigidly, each diaphragm is made of a strip curved in the form of a spiral with an external circuit responding to the circuit of the technological opening a, while the end of the spiral,

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located on the inner surface of the diaphragm, is fixed to the previous one by welding.

Comparative analysis with the prototype shows that the illuminated boom of the expander differs from the known technical solutions in that each diaphragm is made of a curved strip in the form of a spiral with an external contour that is responsive to the contour of the technological opening, with the end of the spiral located on the inner surface of the diaphragm , fixed to the previous turn by welding.

In Fig. 1, an arrow of an excavator is shown; figure 2 is a view of the outer element with a technological opening,

Excavator boom consists of load-bearing elements 1, interconnected and closed by external elements 2. Technological openings 3 are damped in the external elements for 1 installation, technological and other works. As the arrow carries significant static and dynamic loads during operation of the excavator, in the locations of the openings large local stresses arise. As a reinforcement, a diaphragm 4 is welded around the perimeter of the opening 3. The diaphragm is made of a strip 5 curved in the form of a spiral with an external contour that responds to the contour of the technological opening. The end of the spiral 5 located on the inner surface of the diaphragm 4 is fixed by welding. This design of the diaphragm reduces contact stresses at the edges of the process

the opening when significant loads occur, especially dynamic, since the spiral coils during deformation begin to slip relative to each other, work like a spring v dissipating energy

deformation. No cracks are formed in the diaphragm and the outer element.

The proposed design of the boom of the ex-cavator was tested under production conditions and showed significantly more

Claims (1)

high operational durability than the prototype boom is known. SUMMARY OF THE INVENTION An excavator boom comprising interconnected supporting longitudinal and transverse ephementes and external elements with technological openings, each of which is bounded around the perimeter by a diaphragm which is rigidly connected by welding with external elements, characterized in that, in order to increase mechanical strength and reliability and reducing repair costs, each diaphragm is made of a strip curved in the form of a spiral with an external contour, the reciprocal contour technological opening, with the end of the spiral located on the inner surface of the diaphragm attached to the previous turn by welding. i i FIG. g