RU2614175C1 - Device for dredge work of deposits during winter - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: device includes a dam around the mining equipment and a sliding shed, placed on it with a transparent insulating roof. Wherein the shed is made of polycarbonate, on the entire surface of which there are double-convex lenses in staggered rows.

EFFECT: protection of heat inside the shed.

1 dwg

Description

The invention relates to the mining industry, in particular to the development of flooded alluvial deposits and technogenic accumulations of mineral raw materials in the conditions of prolonged negative temperatures.

A device for melting ice is known, including a propeller pump in a nozzle with a straightening apparatus and a guard lattice. A steam-water ejector with a diffuser directed to the screw hub (SU 242691 A1, IPC ЕВВ 15/02, Е01Н 5/10) is installed in the suction cavity of the pump, published 01.01.1969.

The disadvantage of this device is the energy costs for melting ice.

The closest in technical essence to the proposed device is a device for conducting a method of dragee development in conditions of prolonged negative temperatures in the form of a hangar on a slide with a transparent heat-insulating roof (RU 2263786 C1, IPC E21C 41/30) dated July 14, 2004, published 10.11.2005.

However, the execution of the hangar in this way does not ensure the safety of heat inside it due to insufficient thermal conductivity of the material used.

The main objective of the invention is to extend the mining season and reduce the payback period of these measures.

To solve this problem, a device was proposed for dredged field development in the winter, including a dam around mining equipment and placing a hangar on it on a slide with a transparent heat-insulating roof, which is made of polycarbonate, with biconvex lenses arranged in a checkerboard pattern.

The use of polycarbonate as an overlapping material allows for a long time to retain heat due to low thermal conductivity. Biconvex lenses are collecting, which allows you to refract the sun's rays and direct them in a single beam, as a result of which intense heating of the dragee cut water occurs inside the hangar. The location of the lenses in a checkerboard pattern allows you to increase their number and enhance surface heating.

The device is illustrated graphically, where 1 is a polycarbonate hangar for isolating dragee, 2 are biconvex lenses.

The device operates as follows.

The placer gold deposit is being developed by a multi-pack dredge. In the summer, they carry out preparatory work: opening a layer of sand to the length of the front of the dredge, building a dam around mining equipment and prepared for mining for the winter period. With the onset of negative temperatures, a hangar on a slide is installed on the dam.

The hangar is created from polycarbonate, which has a high transmittance (0.85), which allows sunlight to penetrate through the walls. At the same time, biconvex lenses are made on the entire surface, which are collecting lenses, which allows directing all incoming sunlight with a single beam into the dredge face. In this case, the heating of water in the dragee is more intense. The lenses are staggered, which allows you to increase their number in a certain area. So, for example, with a square arrangement of lenses, the free area of polycarbonate will be 21.46%, and with a staggered lens - 9.3%, which is 12.16% less. With the onset of stable positive temperatures, the hangar is installed in the land allotment circuit.

These technical solutions allow you to intensively warm the water in dragee cuts, which will maximize the production season, with a constant average daily reclamation of dredge for metal. As a result, annual dredge productivity will increase sharply.

Claims (1)

A device for dredged field development in the winter, including a dam around mining equipment and a hangar placed on it on a slide with a transparent heat-insulating roof, characterized in that the hangar is made of polycarbonate, on whose entire surface there are biconvex lenses in a checkerboard pattern.

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