RU2758328C1 - Low-pressure unloading unit of the pneumatic loading apparatus - Google Patents

Abstract

FIELD: mining equipment.SUBSTANCE: invention relates to a pneumatic equipment for loading short holes and boreholes with granular explosives and can be used in the design of mobile, portable and knapsack pneumatic chargers. The unloading unit includes rows of nozzles located in the bottom of the tank, inlet and outlet pipes, while the bottom of the tank is provided with a false bottom that passes into an overturned trough with a purge channel formed by a partition with a longitudinal row of nozzles and a cylindrical part of the overturned trough, and on one side the overturned trough is adjacent to the outlet pipe, and on the other side is blocked by a tank wall with a purge pipe.EFFECT: reduction of the maximum pressure of compressed air in the tank, reduction of the weight of the air loader, increase in its capacity and convenience during operation.1 cl, 2 dwg

Description

The invention relates to pneumatic mechanisms for loading boreholes and boreholes with granular explosives (explosives) and can be used in the design of mobile, portable and knapsack pneumatic chargers.

Known aeration chamber of the charging and delivery installation, which includes a false bottom - a grid or porous ceramics and an unloading pipe, the work of which is based on creating a fluidized bed over the entire surface of the false bottom, for which it is necessary to supply compressed air with a pressure of 6 10 ⁵ N / m ² (cm GP Demidyuk, AM Bugayskiy. Means of mechanization and technology of blasting operations with the use of granular explosives, Moscow "Nedra" 1975, Fig. 42).

The disadvantage of the analogue is the required high pressure (6 10⁵N / m²) to create a fluidized layer on the entire surface of the false bottom - the mesh, which leads to an increase in the weight of the structure.

The closest to the proposed technical solution is a vortex aerator charger, including rows of nozzles located in the bottom of the charger, inlet and outlet pipes (see G.P.Demidyuk, A.M.Bugaysky. Means of mechanization and technology of blasting operations using granular explosives , Moscow "Nedra" 1975, Fig. 45).

The disadvantages of the prototype are the need for high (6 × 10 ⁵ N / m ² ) compressed air pressure at the initial moment to displace explosives from the outlet pipe and funnel and before the formation of the aeration zone, deterioration of the operational properties of the pneumatic loader due to the cylindrical-conical shape, significant weight of the charger and decrease in capacitive characteristics.

The technical result of the proposed technical solution is to reduce the pressure of compressed air in the container, to reduce the weight of the pneumatic loader, to increase its capacity, as well as to create convenience in its operation.

This technical result is achieved by the fact that in a low-pressure unloading unit of a pneumatic loader, including rows of nozzles located in the bottom of the tank, inlet and outlet nozzles, according to the invention, the bottom of the tank is equipped with a false bottom, with longitudinal rows of nozzles passing into an overturned chute with a purge channel formed by a partition with a longitudinal row of nozzles and part of an overturned gutter, where on one side the overturned gutter adjoins the outlet pipe, and on the other side it is closed off by the wall of the tank with a blow off pipe.

This design of the low-pressure unloading unit of the pneumatic charger will reduce the maximum pressure of compressed air in the tank, reduce the weight of the pneumatic charger, increase its capacity, and also create ease of use.

The essence of the invention is illustrated by drawings, where FIG. 1 shows a cross-section of the unloading unit, and FIG. 2 - unloading unit in perspective view.

The low-pressure unloading unit of the pneumatic loader is a false bottom 1 with longitudinal rows of nozzles 2, turning into an overturned chute 3 with a purge channel 4 formed by a partition 5 with a longitudinal row of nozzles 6 and a cylindrical part of an overturned chute 3. The false bottom 1 is installed in the bottom of the tank 7 of the charger. with the formation of a chamber 8 for compressed air. On the one hand, the chute 3 adjoins the outlet branch pipe 9 of the tank 7, on the other, it is covered by the wall of the tank 7 of the pneumatic charger with a purge branch pipe 10. On the same side of the tank 7 there is an inlet branch pipe 11 for supplying compressed air to the chamber 8.

The low-pressure unloading unit of the pneumocharger operates as follows.

Before charging and in pauses during the charging process, compressed air is supplied to the purge channel 4 through the purge nozzle 10 (see Figs. 1, 2) for purging the chute 3 with air jets from nozzles 6, outlet nozzle 9 and the charging hose (not shown in Fig. ). After purging, air is supplied through the inlet 11 into the compressed air chamber 8. From the chamber 8, air under pressure comes out of the nozzles 2. Under the action of the dynamic pressure of the air jets of the first row of nozzles 2, they break through into the groove 3 through the explosive layer. Following this, jets break out from the nozzles 2 of the second row and then the third. The explosive is loosened and moves in the chute 3, in the outlet pipe 9 and enters the charging hose.

The minimized distance between the first row of nozzle holes 2 to the entrance to the chute 3 and the increased longitudinal sectional area of the chute 3 in comparison with the section of the outlet nozzle 9 guarantees minimal resistance to air movement inside the container 7 of the charger, and the increased longitudinal sectional area of the chute 3 provides minimal resistance to movement mixture of explosives and air into the outlet 9 and then into the charging hose.

A large aeration area extending over the entire false bottom 1 minimizes bridging and blockage of the gutter 3 along its length. As a result, the air pressure in the tank 7 of the pneumatic charger slightly exceeds the pressure required to accelerate and move the flow of air and explosive particles along the charging hose (the excess is equal to the hydrostatic pressure of the bulk explosive in the zone of the first row of nozzles 2 of the bottom ~ 125 N / m ² ).

For more capacious portable and mobile pneumatic loaders, the unloading unit can be made paired with a common purge channel of the troughs and a common outlet pipe.

The use of the proposed technical solution will allow, in comparison with the prototype, to reduce the maximum pressure of compressed air in the container, to reduce the weight of the pneumatic loader, to increase its capacity, and also to create ease of use.

Claims (1)

Low-pressure unloading unit of the pneumatic loader, including rows of nozzles located in the bottom of the tank, inlet and outlet pipes, characterized in that the bottom of the tank is equipped with a false bottom, with longitudinal rows of nozzles passing into an overturned chute with a purge channel formed by a partition with a longitudinal row of nozzles and part of an overturned gutter, where on one side the overturned gutter adjoins the outlet pipe, and on the other side it is closed off by the wall of the tank with a blow off pipe.

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