SU613031A1 - System of controlling mounted equipment for excavating frozen soil - Google Patents

Description

The invention relates to the field of earthmoving equipment and can be used in attachments for the development of frozen soil. A hydraulic hammer control device is known, comprising a body made in the form of a pipe, in which a flank with a clan and an anvil is placed, rigidly connected with the tool. 1. The closest technical solution to the invention is the attachment control system for the development of frozen ground, including a working member, a hydraulic accumulator, a working network pump connected to a hydraulic accumulator, a working stroke cylinder, separated from the accumulator by a valve with a pulse power regulator 2. The disadvantages of such a technical solution are the low power of the equipment and the lack of remote control of the energy of the pulsed stroke due to the fact that the valve is pressed to the saddle by a mechanical spring, the preloading force of which and the force of pressing the valve, as well as the operating pressure are regulated by a lever located above the valve. The aim of the invention is to increase the power of the equipment and to provide remote control. The goal is achieved by the fact that the cavity above the ends of the valves is connected to the pump for controlling and regulating the energy of the impulse drive located to the cockpit of the vantel. The drawing shows the proposed system. The control system of attachments for the development of frozen soil includes a working body 1, a hydraulic accumulator 2, clans 3, a regulator 4 of the energy of a pulsed stroke and a cylinder 5 of the working body. Nodes b above the ends of the valves 3 are connected to the pump 7} with the regulator 4 and the energy regulator 4 of the pulse train, located on the control panel in the driver's cabin. The system also includes a pump 8, communicated through the distributor 9 with the cylinder 5 and the hydroaccumulator 2. The attachment control system operates as follows. The pump 7 is turned on, feeding the oil into the supra-valve cavities 6, as a result of which the clap 3 is pressed by the oil pressure to the saddles. Next, the pump 8 is turned on, the oil from which flows into the pump accumulator 2 n iodine valve 3 juice. As soon as the oil pressure in the pump accumulator reaches the adjustment value of the regulator 4, the valve opens and the fluid from the pump accumulator starts to flow into the working cylinder 5. At This involves the conversion of the energy of the fluid, which is accumulated in the accumulator, into the energy of motion of the irunger, which is rigidly connected to the working body 1, which destroys the frozen ground. Well, the impact of the pressure of the liquid in each iadklaaioy nolostn 6. After the working stroke, the pressure in the accumulator is pressurized, the valves are closed and the accumulator begins to fill. Next, the loop repeats in the same sequence. The frequency of the pulses depends on the efficiency of the pump working pump, the capacity of the battery and the pressure of the fluid in the cavities, which is set by regulating 4 of the pulse pulse energy.

Formula and 3 about b and e and

Attachment control system for the development of frozen ground, which includes a working body, a hydraulic accumulator, claanas, a pulse energy regulator, a control pump, and a working body cylinder, characterized in that, in order to increase power and ensure remote alignment, a cavity above the ends The valve is connected to the control pump and the pulse energy regulator.

Sources of information taken for examination

1.Graph. L. E. N. dr. Hydraulic impact machines and 1P1 tools. M, 1972, p. .

2. USSR author's certificate Ao 340748, cl. E 02F 5/30, 1970.